Inflammation, oxidative stress, and obesity

Vitamin D: What role in obesity-related cancer?

Obesity is an important risk factor for incidence and death for many types of cancer. Vitamin D reduces risk of incidence and death for many types of cancer. This review outlines the mechanisms by which obesity increases risk of cancer, how vitamin D reduces risk of cancer, and the extent to which vitamin D counters the effects of obesity in cancer. Vitamin D is a partial ally against some of obesity's pro-carcinogenic effects, notably by reducing inflammation and regulating sex hormone receptors, leptin resistance, cellular energy metabolism, the microbiome, and hypoxia. However, it can act stronger in against the renin-angiotensin system, insulin resistance, and oxidative stress in cancer. Additionally, excess fat tissue sequesters vitamin D and, along with its dilution in increased body volume, further reduces its bioavailability and serum concentration, limiting its protective effects against cancer. In conclusion, while vitamin D cannot reverse obesity, it plays a significant role in mitigating its pro-carcinogenic effects by targeting several mechanisms.

An overview of nutritional factors in the aetiopathogenesis of myocardial fibrosis in great apes

The main cause of mortality in great apes in zoological settings is cardiovascular disease (CVD), affecting all four taxa: chimpanzee (Pan troglodytes), bonobo (Pan paniscus), gorilla (Gorilla spp.) and orangutan (Pongo spp.). Myocardial fibrosis, the most typical histological characterisation of CVD in great apes, is non-specific, making it challenging to understand the aetiopathogenesis. A multifactorial origin of disease is assumed whereby many potential causative factors are directly or indirectly related to the diet, which in wild-living great apes mainly consists of high-fibre, low-carbohydrate and very low-sodium components. Diets of great apes housed in zoological settings are often different compared with the situation in the wild. Moreover, low circulating vitamin D levels have recently been recognised in great apes housed in more northern regions. Evaluation of current supplementation guidelines shows that, despite implementation of different dietary strategies, animals stay vitamin D insufficient. Therefore, recent hypotheses designate vitamin D deficiency as a potential underlying factor in the pathogenesis of myocardial fibrosis. The aim of this literature review is to: (i) examine important differences in nutritional factors between zoological and wild great ape populations; (ii) explain the potential detrimental effects of the highlighted dietary discrepancies on cardiovascular function in great apes; and (iii) elucidate specific nutrition-related pathophysiological mechanisms that may underlie the development of myocardial fibrosis. This information may contribute to understanding the aetiopathogenesis of myocardial fibrosis in great apes and pave the way for future clinical studies and a more preventive approach to great ape CVD management.

The Effect of Black Chokeberry (Aronia melanocarpa) on Human Inflammation Biomarkers and Antioxidant Enzymes: A Systematic Review of Randomized Controlled Trials

CONTEXT

Consuming antioxidant-rich foods has been associated with potential benefits in managing chronic diseases by reducing oxidative stress and inflammation.

OBJECTIVE

This systematic review aimed to evaluate the effects of Aronia melanocarpa (aronia berry or chokeberry) on human inflammation biomarkers and antioxidant enzymes.

DATA SOURCES

A systematic search was conducted across multiple databases, including PubMed, Scopus, Science Direct, and Web of Science, to identify relevant studies investigating the potential effects of aronia on human inflammation biomarkers and antioxidant enzymes between April 2022 and November 2023.

DATA EXTRACTION

The selection of studies followed the PRISMA guidelines, data screening was conducted by 4 independent reviewers, and data extraction and risk-of-bias assessments were performed by 2 independent reviewers using the Cochrane Risk of Bias 2 tool.

DATA ANALYSIS

A total of 1986 studies were screened, and 18 studies that met the inclusion criteria were included in a systematic review that investigated the anti-inflammatory effects of aronia on various health parameters. These studies primarily focused on the effects of aronia on cardiometabolic diseases, performance in sport, and other health parameters.

CONCLUSIONS

This study examined the effects of Aronia intervention on human health outcomes using aronia juice, extract, or oven-dried powder for a period of 4 to 13 weeks. The primary health parameters considered were C-reactive protein (CRP), interleukin-6 (IL-6), tumor necrosis factor alpha (TNF-α), interleukin-8 (IL-8), interleukin-10 (IL-10), interleukin-1ß (IL-1ß), superoxide dismutase (SOD), catalase (CAT), and reduced glutathione peroxidase (GSH-Px). The results showed that aronia had a beneficial effect on several inflammatory cytokines, including reductions in CRP, TNF-α and IL-6 concentrations, as well as elevated IL-10 levels. Moreover, positive changes have been observed in antioxidant enzyme systems, including; elevated SOD, GSH-Px and CAT activity. The findings of the presented studies provide evidence that Aronia melanocarpa may have beneficial effects on inflammatory markers.

SYSTEMATIC REVIEW REGISTRATION

PROSPERO registration No. CRD42022325633.

Differential Effects of Wild Blueberry (Poly)Phenol Metabolites in Modulating Lipid Metabolism and Oxidative Stress in 3T3-L1 Adipocytes

Adipocyte hypertrophy, driven by lipid accumulation, is crucial in the development of obesity. Wild blueberry (WB; Vaccinium angustifolium) (poly)phenols (PPs) metabolites may modulate adipogenesis and the development of obesity. This study examines WB PP metabolites' effects on lipid accumulation, lipid metabolism, and oxidative stress in mature 3T3-L1 adipocytes. Differentiated 3T3-L1 adipocytes were treated for 48 h with free fatty acids (FFAs; oleic/palmitic acid 750 µM, 2:1 ratio) and WB-derived PPs, including ferulic acid (FA), isoferulic acid (IA), vanillic acid (VA), and syringic acid (SA) at physiological and supra-physiological concentrations. Assessments included lipid accumulation, glycerol release, and markers of lipid metabolism (sterol regulatory element-binding protein 1c [SREBP-1], fatty acid synthase [FASN], FAB4) and oxidative stress (DNA damage, 8-hydroxy 2-deoxyguanosine [8OHdG], nuclear erythroid factor 2-related factors 2 (NRF2), heme oxygenase 1 [HO-1]). FFAs significantly increased lipid accumulation, glycerol release, and FASN levels, while reducing HO-1 levels, without affecting other markers. WB PP metabolites did not reduce lipid accumulation, but IA and VA reduced FASN levels (-25% and -26%; p < 0.05), and SA improved HO-1 levels (+150%; p < 0.05). Despite the different effects observed, the findings obtained under our experimental conditions seem to suggest that IA, VA, and SA may modulate lipid metabolism and oxidative stress markers. However, further studies are fundamental to corroborate the findings obtained and support the contribution of these BB PPs metabolites and other compounds in the prevention and management of obesity.

Polysaccharides in the medicine and food homology to combat obesity via gut-liver axis: A review of possible mechanisms

Polysaccharides, as macromolecular carbohydrates present in various medicine and food homology, have gained growing recognition for their potential in combating obesity through multiple mechanisms. Their natural origin and favorable safety profile have made polysaccharides from medicine and food homology (PMFH) an area of significant research interest, particularly in the context of developing effective, safe, and sustainable interventions for obesity management. This review summarized the classification and biological properties of PMFH and then elucidated the pathological characteristics of obesity. We primarily focused on the effects of PMFHs on obesity, with particular attention to the potential mechanisms mediated through the gut-liver axis. These mechanisms encompassed the improvement of fat metabolism imbalances, manager of appetite and energy balance, adjustment of intestinal microbial imbalances, and alleviation of oxidative stress and inflammation. The findings provided critical theoretical insights and data to support the development of anti-obesity dietary and pharmaceutical products. In brief, this review outlined future research directions regarding the potential mechanisms underlying the anti-obesity effects of PMFH, particularly those involving the gut-liver axis.

Endurance Training Alleviates Metabolic-Associated Fatty-Liver Disease (MAFLD)-Related Testicular Impairments via Endoplasmic Reticulum Stress Regulation

BACKGROUND

Metabolic-associated fatty liver disease (MAFLD), the most prevalent liver disorder globally, affects 20%-40% of the population and presents significant health challenges. Studies link MAFLD to male reproductive dysfunction, highlighting the need for effective interventions. This study investigates the impact of MAFLD on testicular function and evaluates the protective role of endurance training, with a focus on the GRP78-IRE-1α-ATF6 signaling pathway.

METHODS

Forty-four rats were allocated into two dietary groups (n = 22 each): a standard diet control group (C) and a high-fat diet supplemented with fructose water group (FL). After 17 weeks, histological analysis confirmed MAFLD development in the FL group, while the control group showed no pathological changes. Each dietary group was further subdivided into sedentary and endurance-trained (T) subgroups (n = 10 per subgroup), resulting in four experimental groups: C, C + T, FL + T, and FL. At the end of the research, thyroid stimulating hormone (TSH), sex hormones (testosterone), tumor necrosis factor-alpha (TNF-a) as well as GRP78, IRE-1α, and AFT6 expression were assessed.

RESULTS

Our results indicated that MAFLD led to significant weight gain, disrupted serum levels of thyroid-stimulating hormone, and impaired sex hormone profile. Additionally, MAFLD triggered ER stress, evidenced by dysregulated expression of genes in the GRP78-IRE-1α-ATF6 pathway. Remarkably, endurance training mitigated these adverse effects by normalizing hormonal profiles and restoring the expression of ER stress-related genes. These findings highlight the critical role of ER stress in MAFLD-induced male reproductive dysfunction.

CONCLUSION

Overall, the present study suggests endurance training as a promising treatment strategy for addressing MAFLD and its associated reproductive complications.

Impact of time-restricted feeding on glycemic indices, vascular oxidative stress, and inflammation in an obese prediabetes rat model induced by a high-fat diet and sugar drink

OBJECTIVE

This study aims to investigate the effects of time-restricted feeding (TRF) on glycaemic indices and aortic tissue oxidative stress and inflammation in an obese prediabetes rat model.

METHODS AND PROCEDURES

Male Sprague-Dawley rats were divided into two normal and four obese groups. Obese prediabetes was induced by feeding a high-fat diet and sucrose water (HFSD) for 10 weeks; normal rats were given a standard diet and plain water. For the next 6 weeks, rats were grouped into the normal group (NR), which continued on the standard diet; the normal group was switched to TRF with the standard diet (NR + TRFSD); the prediabetes group (OR) was continued on HFSD; the prediabetes group was switched to TRF of HFSD (OR + TRFHFSD); the prediabetes group was switched to TRF of the standard diet (OR + TRFSD); and the prediabetes group was switched to the standard diet (OR + SD). Rats were then sacrificed, and aortic tissues were isolated and quantified for oxidative stress markers malondialdehyde, antioxidant enzyme superoxide dismutase, and inflammation markers tumor necrosis factor-α, and interleukin 1. Fasting blood glucose (FBG), body weight, Lee's index, serum insulin level, and resistance (Homeostatic Model Assessment of Insulin Resistance) were also measured.

RESULTS

Mean FBG and body weight in obese groups were higher compared to the normal groups after 10 weeks of HFDSD. Both obese-prediabetes groups that underwent TRF had reduced levels of tumor necrosis factor-α, interleukin 1, body weight, Lee's index, FBG, and insulin resistance. Furthermore, obese prediabetes on TRF with SD also reduced levels of lipid peroxidation (malondialdehyde), insulin levels and increased levels of the antioxidant enzyme (superoxide dismutase).

CONCLUSION

TRF reduced weight, improved glycaemic indices, vascular oxidative stress, and inflammation in obese-prediabetic rats.

Uncoupling protein 1-mediated protective effects of β3-adrenergic receptor agonist on kidney fibrosis via promoting adipose tissue browning in diabetic mice

BACKGROUND

Diabetes mellitus (DM) is a global health concern. Diabetic kidney disease (DKD) is a prevalent severe complication of DM and therapy is urgently needed. Adipose tissue (AT) plays a crucial role in the energy mediation through glucolipid metabolism. Mirabegron is a specific β3-adrenergic receptor agonist, which can activate thermogenesis in adipocytes, improve energy consumption, and increase insulin sensitivity and glucose tolerance. Therefore, mirabegron may play a role in DKD pathogenesis. However, its effects and precise mechanisms remain unclear.

METHODS

A DKD mouse model based on type 2 DM (T2DM) was constructed and treated with mirabegron. Mice with AT surgically removed and mice with uncoupling protein 1 (Ucp1) knockout were used to confirm whether thermogenesis induced by mirabegron was the key process.

RESULTS

Mirabegron promoted AT browning in DKD mice. Mirabegron increased insulin sensitivity, promoted glucolipid metabolism, reduced inflammatory factor levels in kidney tissue, and improved renal function and fibrosis in DKD mice. Notably, all of these benefits disappeared in AT-removed DKD mice or in Ucp1 knockout DKD mice.

CONCLUSIONS

Mirabegron protects against kidney fibrosis in DM mice by activating AT thermogenesis via the UCP1 pathway. Thus, mirabegron may provide a promising potential option for DKD therapy.

Microbiota, mitochondria, and epigenetics in health and disease: converging pathways to solve the puzzle

Dysbiosis, which refers to an imbalance in the composition of the gut microbiome, has been associated with a range of metabolic disorders, including type 2 diabetes, obesity, and metabolic syndrome. Although the exact mechanisms connecting gut dysbiosis to these conditions are not fully understood, various lines of evidence strongly suggest a substantial role for the interaction between the gut microbiome, mitochondria, and epigenetics. Current studies suggest that the gut microbiome has the potential to affect mitochondrial function and biogenesis through the production of metabolites. A well-balanced microbiota plays a pivotal role in supporting normal mitochondrial and cellular functions by providing metabolites that are essential for mitochondrial bioenergetics and signaling pathways. Conversely, in the context of illnesses, an unbalanced microbiota can impact mitochondrial function, leading to increased aerobic glycolysis, reduced oxidative phosphorylation and fatty acid oxidation, alterations in mitochondrial membrane permeability, and heightened resistance to cellular apoptosis. Mitochondrial activity can also influence the composition and function of the gut microbiota. Because of the intricate interplay between nuclear and mitochondrial communication, the nuclear epigenome can regulate mitochondrial function, and conversely, mitochondria can produce metabolic signals that initiate epigenetic changes within the nucleus. Given the epigenetic modifications triggered by metabolic signals from mitochondria in response to stress or damage, targeting an imbalanced microbiota through interventions could offer a promising strategy to alleviate the epigenetic alterations arising from disrupted mitochondrial signaling.

Association between dietary oxidative balance scores and myocardial infarction in diabetic patients: insights from NHANES 1999-2018

BACKGROUND

Myocardial infarction (MI) poses a serious health threat to diabetic patients, who are particularly vulnerable due to heightened oxidative stress. The dietary oxidative balance score (DOBS) quantifies the overall oxidative profile of the diet and may reflect diet-related cardiovascular risk.

OBJECTIVE

This study aimed to evaluate the association between DOBS and the risk of MI among diabetic individuals using a nationally representative U.S.

POPULATION

METHODS

We analyzed data from 5,002 diabetic participants in the NHANES 1999-2018 cycles. DOBS was calculated based on 16 pro- and antioxidant nutrients using two 24-hour dietary recalls. Logistic regression models and 1:1 propensity score matching (PSM) were employed to assess the association between DOBS and self-reported history of MI, adjusting for demographic, clinical, and lifestyle covariates. Restricted cubic spline (RCS) models were used to evaluate potential nonlinear relationships.

RESULTS

A one-point increase in DOBS was associated with a 3% lower odds of MI in both unadjusted and fully adjusted models (adjusted OR = 0.97, 95% CI: 0.95-0.99). Participants in the highest DOBS tertile had a 38% lower odds of MI compared to the lowest tertile (OR = 0.62, 95% CI: 0.43-0.87), and this association remained consistent in the matched cohort (OR = 0.72, 95% CI: 0.48-0.88). While formal tests for nonlinearity were not significant, RCS curves suggested a threshold effect with diminishing benefits at higher DOBS levels. Subgroup and sensitivity analyses confirmed the robustness of the findings.

CONCLUSION

Higher DOBS is associated with a lower likelihood of MI among diabetic patients. These findings highlight the potential value of antioxidant-rich dietary patterns in cardiovascular risk assessment. However, given geographic and cultural variability in diet, further validation is needed in diverse populations and prospective study settings.

Eating for Optimization: Unraveling the Dietary Patterns and Nutritional Strategies in Endometriosis Management

Endometriosis is a chronic gynecological disorder affecting millions of women worldwide, causing chronic pelvic pain, dyspareunia, dysmenorrhea, and infertility, and severely impacting their quality of life. Treatment primarily involves hormonal therapies and surgical excision, but high recurrence rates and the economic burden are substantial. With these challenges, significant discussion surrounds the potential role of dietary patterns in managing endometriosis, making it necessary to bridge this critical gap. This review investigates the current scientific evidence on the dietary patterns (eg, Mediterranean, vegetarian, anti-inflammatory, low-fermentable oligosaccharides, disaccharides, monosaccharides, and polyols [low-FODMAP], and Western-style diets) associated with endometriosis and provides a concise, yet thorough, overview on the subject. In addition, antioxidants, microbiota, and artificial intelligence (AI) and their potential roles were also evaluated as future directions. An electronic-based search was performed in MEDLINE, Embase, Cochrane Library, CINAHL, ClinicalTrials.gov, Scopus, and Web of Science. The current data on the topic indicate that a diet based on the Mediterranean and anti-inflammatory diet pattern, rich in dietary fiber, omega-3 fatty acids, plant-based protein, and vitamins and minerals, has a positive influence on endometriosis, yielding a promising improvement in patient symptoms. Preclinical investigations and clinical trials indicate that dietary antioxidants and gut microbiota modulation present potential new approaches in managing endometriosis. Also, AI may offer a promising avenue to explore how dietary components interact with endometriosis. Ultimately, considering genetic and lifestyle factors, a healthy, balanced, personalized approach to diet may offer valuable insights on the role of diet as a means of symptom improvement, facilitating the utilization of nutrition for the management of endometriosis.

Paraoxonase-like APMAP maintains endoplasmic-reticulum-associated lipid and lipoprotein homeostasis

Oxidative stress perturbs lipid homeostasis and contributes to metabolic diseases. Though ignored when compared with mitochondrial oxidation, the endoplasmic reticulum (ER) generates reactive oxygen species requiring antioxidant quality control. Using multi-organismal profiling featuring Drosophila, zebrafish, and mammalian hepatocytes, here we characterize the paraoxonase-like C20orf3/adipocyte plasma-membrane-associated protein (APMAP) as an ER-localized antioxidant that suppresses ER lipid oxidation to safeguard ER function. APMAP-depleted cells exhibit defective ER morphology, ER stress, and lipid peroxidation dependent on ER-oxidoreductase 1α (ERO1A), as well as sensitivity to ferroptosis and defects in ApoB-lipoprotein homeostasis. Similarly, organismal APMAP depletion in Drosophila and zebrafish perturbs ApoB-lipoprotein homeostasis. Strikingly, APMAP loss is rescued with chemical antioxidant N-acetyl-cysteine (NAC). Lipidomics identifies that APMAP loss elevates phospholipid peroxidation and boosts ceramides-signatures of lipid stress. Collectively, we propose that APMAP is an ER-localized antioxidant that promotes lipid and lipoprotein homeostasis in the ER network.

Molecular mechanisms underlying the effects of beta-sitosterol on TGF-β1/Nrf2/SIRT1/p53-mediated signaling in the kidney of a high-fat diet and sucrose-induced type-2 diabetic rat

Diabetic nephropathy, a severe problem of diabetes mellitus, is exacerbated by high-fat diets, prompting a need for interventions. Previous study from our laboratory has shown that β-sitosterol, a potent plant sterol has anti-inflammatory and glucose-lowering efficacy by involving insulin metabolic signalling pathway but its role on anti-oxidant signaling pathways, play a crucial role in mitigating oxidative stress and inflammation associated diabetic nephropathy, highlighting its importance as a potential therapeutic target for managing this debilitating complication of diabetes is unknown. This study was aimed to intricate the molecular mechanisms involved in the potential of β-sitosterol (BSIT) on TGF-β1/Nrf2/SIRT1/p53 signaling in high fat diet (HFD) and sucrose induced diabetic nephropathy (DN) in the rat kidney by employing various comprehensive bioinformatic analysis. We have used various comprehensive methods such as pathway predictions, Drug-Protein Interaction, Functional annotation analysis, and molecular docking techniques. Further, in vivo analysis of BSIT on biochemical profiles, gene and protein expression analysis of anti-oxidant and inflammatory signaling molecules was performed in the kidney of high fat diet (HFD) and sucrose-induced diabetic nephropathy. Computational studies provided insights into β-sitosterol's binding affinities and interaction modes with key proteins, suggesting its potential to regulate TGF-β1/Nrf2/SIRT1/p53 signaling pathways. Results of in vivo findings validated computational predictions, showcasing BSIT's multifaceted effects in mitigating diabetic nephropathy and associated complications including regulation of lipid metabolism, combating oxidative stress, and inflammation. The findings underscore BSIT's therapeutic potential by preserving cellular viability, regulating cell death, enhancing antioxidant defence, and stabilizing metabolic processes. Our study concludes that BSIT's ability to potentially regulate TGF-β1/Nrf2/SIRT1/p53 pathways, emphasizing its promising role in managing diabetic nephropathy and associated complications.

Acute and long-term transcriptomic responses of granulosa cells to obesogenic diet and concomitant effects on oocyte quality: insight from an outbred mouse model†

Diet-induced obesity can cause long-term alterations in ovarian functions, but the acute effects of obesogenic diets on the follicular cells and their progression over time, when intake is continued and obesity develops, remain unclear. We aimed to determine the onset and progression of changes in the granulosa cell transcriptomic profile after starting a high-fat/high sugar (HFHS)-diet feeding in mice. We also examined the changes in oocyte lipid droplet content and mitochondrial ultrastructural abnormalities. Swiss (outbred) mice were sacrificed at 24 h, 3 days, and at 1, 4, 8, 12, and 16 weeks of feeding HFHS and control diets. Lipid droplet content significantly increased in the HFHS oocytes within 24 h compared to controls (P < 0.05). Oocyte mitochondrial abnormalities only increased starting from 8 weeks. Granulosa RNA-seq revealed altered transcriptomic gene-set enrichments (GO terms and KEGG pathways, Padj < 0.05) already at 3 days and 1 week indicating acute endoplasmic reticulum unfolded protein responses, with concomitant fluctuations in several cellular metabolic pathways and gene sets related to mitochondrial bioenergetic functions, some of which persisted after 8 weeks. Interestingly, the short- and long-term patterns of changes in cytochrome P450, steroid hormone biosynthesis, retinol metabolism, bile acid metabolism, fatty acid metabolism, and Pi3K/Akt signaling pathways were most prominent and highly correlated; all being acutely upregulated, then chronically downregulated. These results show that the impact of obesogenic diet on the oocyte and granulosa cells is prompt, while the response depends on the duration of feeding and occurs in a multiphasic cascade together with a progressive deterioration in oocyte quality.

Antioxidant Supplementation in Childhood Obesity: A Path to Improved Metabolic Health?

Childhood obesity is linked to heightened oxidative stress, a key driver of endothelial dysfunction, inflammation, and metabolic complications. Antioxidants, including Vitamins C and E, are vital in neutralizing free radicals and mitigating oxidative damage. This non-systematic review examines the potential advantages of antioxidant supplementation in pediatric obesity, focusing on its effects on vascular health, insulin sensitivity, and inflammatory processes. Emerging data suggest that antioxidants may improve endothelial function, reduce blood pressure, and enhance metabolic homeostasis in obese children. However, the long-term efficacy and safety of antioxidant supplementation remain uncertain, necessitating further rigorous randomized controlled trials. A deeper understanding of antioxidants' role in pediatric obesity could unlock novel therapeutic approaches for managing obesity-related complications and improving children's overall health outcomes.

Efficacy of sodium butyrate in improving nonalcoholic fatty liver disease: A meta-analysis of preclinical studies

BACKGROUND

To evaluate the efficacy of sodium butyrate (NaB) in ameliorating nonalcoholic fatty liver disease (NAFLD) in animals.

METHODS

Chinese and English databases (including PubMed, Embase, Web of Science, Cochrane Library, CNKI, Wangfang Data, CQVIP, and SinoMed) were searched for literature related to NaB to improve the animal model of NAFLD from the establishment of each database to 2023-02. 2 researchers independently screened the literature and extracted the data. The SYRCLE tool was used to assess risk of bias. The extracted data were analyzed using Revman 5.3 and Stata 17.0.

RESULTS

A total of 1008 relevant references were reviewed, and 12 animal experiments involving 192 animals were included in the analysis: 96 in the NaB group and 96 in the model group. The results showed that animals in the NaB group had significantly lower levels of alanine aminotransferase (standardized mean difference (SMD) = -1.29, 95% confidence interval (CI) (-2.08, -0.49), P = .002], aspartate aminotransferase [SMD = -1.13, 95% CI (-1.75, -0.50), P = .0004], NAFLD activity scores [SMD = -3.19, 95%CI(-4.80, -1.58), P = .0001], triglyceride [SMD = -1.28, 95%CI(-1.66, -0.90), P < .00001] and total cholesterol levels [SMD = -1.39, 95%CI(-2.11, -0.67), P = .0002], interleukin-1β [SMD = -1.40, 95%CI (-1.87, -0.92), P < .00001], interleukin-6 [SMD = -1.38, 95%CI (-1.87, -0.90), P < .00001], tumor necrosis factor-alpha [SMD = -1.69, 95% CI (-2.10, -1.28), P < .00001], and other pro-inflammatory factors, and significantly higher tight junction protein-1 expression [SMD = 1.06, 95% CI (0.43,1.69), P = .0009].

CONCLUSION

NaB treatment improves liver function in animals with NAFLD, protected the liver tissue, reduced triglyceride and total cholesterol levels, inhibited inflammation, and protected intestinal barrier function.

Advances in Leaf Plant Bioactive Compounds: Modulation of Chronic Inflammation Related to Obesity

Over the years, there has been a tendency for an increase in global obesity. The World Health Organization's (WHO) 2024 report states that in 2019, more than one billion people were obese, and this condition was responsible for five million deaths, being that obesity is more prevalent among adults compared to adolescents and children. Obesity is a chronic disease characterized by alterations in adipose tissue. When excessive food is consumed and energy expenditure is low, adipose tissue undergoes hypertrophy and hyperplasia. This process activates B cells and induces the transition of anti-inflammatory M2-like macrophages into pro-inflammatory M1-like macrophages. B cells, acting as inflammatory mediators, stimulate pro-inflammatory CD8+ T cells, and promote macrophage infiltration into tissues. This condition triggers inflammation, increases oxidative stress, and ultimately leads to cellular death. During inflammation, an increase of pro-inflammatory cytokines occurs along with a decrease of anti-inflammatory cytokines. By contrast, the increase of oxidative stress is related to an increase of reactive oxygen species (ROS), oxidation of biomolecules, and a decrease in antioxidants. This mechanism for obesity can be mitigated through several healthy lifestyle changes, primarily including regular physical activity and healthy eating. These factors help reduce pro-inflammatory mediators and ROS, lowering inflammation and oxidative stress. Therefore, this review article focuses on studying the bioactive compounds present in the edible leaves of Annona cherimola Mill., Ipomoea batata (L.) Poir., Colocasia esculenta (L.) Schott, Eriobotrya japonica, Cymbopogon citratus, Psidium guajava (L.), and Smallanthus sonchifolius to evaluate their effects on the mechanisms involved in obesity.

Combined effects of natural products and exercise on apoptosis pathways in obesity-related skeletal muscle dysfunction

Obesity and related metabolic disorders are closely linked to increased apoptosis in skeletal muscle, leading to muscle degeneration, insulin resistance, and the progression of diseases such as type 2 diabetes and sarcopenia. This review explores the combined effects of natural products, including resveratrol, curcumin, and quercetin, and physical exercise on modulating apoptosis pathways in skeletal muscle. Both natural products and regular physical activity independently reduce oxidative stress and improve mitochondrial function, thereby regulating the balance between pro-apoptotic and anti-apoptotic signals. When combined, these interventions amplify their protective effects on muscle health, promoting mitochondrial biogenesis, reducing apoptosis, and enhancing muscle regeneration. This review also discusses the molecular mechanisms by which these strategies influence apoptosis, with a focus on the Bcl-2 pathway, and explores the clinical implications for the prevention and treatment of obesity-related diseases. The synergistic benefits of combining exercise with natural product supplementation offer a promising therapeutic approach for managing metabolic disorders, preserving muscle function, and improving overall metabolic health.

Integrating LC-MS/MS and In Silico Methods to Uncover Bioactive Compounds with Lipase Inhibitory Potential in the Antarctic Moss Warnstorfia fontinaliopsis

Antarctic organisms are known for producing unique secondary metabolites, and this study specifically focuses on the less-explored metabolites of the moss Warnstorfia fontinaliopsis. To evaluate their potential bioactivity, we extracted secondary metabolites using four different solvents and identified significant lipase inhibitory activity in the methanol extract. Non-targeted metabolomic analysis using liquid chromatography-tandem mass spectrometry (LC-MS/MS) on this extract predicted the presence of 12 compounds, including several not previously reported in mosses. To gain insights into their enzyme inhibitory activity, the binding affinities of these candidate compounds to lipase were evaluated through in silico molecular docking. Further validation by molecular dynamics (MD) simulations revealed that hyocholic acid and pheophorbide A form stable complexes with human pancreatic lipase (HPL). Based on these results, targeted fractionation experiments were performed, yielding eight fractions. Among these, Fractions 4 and 6, which are assumed to contain those compounds, exhibited higher lipase inhibitory activity compared to the crude extract. Additionally, pharmacokinetic properties of those compounds were analyzed using SwissADME and Molinspiration calculations, suggesting their potential as drug candidates. This study establishes a promising methodology for identifying rare bioactive compounds of low abundance in underexplored natural resources by combining LC-MS/MS analysis with molecular docking. These findings also provide new insights into the chemical ecology of Antarctic mosses and their potential applications in pharmaceutical development.

Antioxidant activity and anti-adipogenic effect of ethyl acetate fraction of cumin seeds on 3T3-L1 adipocytes differentiation

Cumin seeds were fractionated with various solvents to evaluate their antioxidant activity and anti-adipogenic effects in 3T3-L1 adipocytes. In vitro antioxidant assays such as DPPH, ABTS cation scavenger, FRAP, ORAC, and TPC, and 3T3-L1 adipocytes differentiation were performed. The results of these assays show that ethyl acetate fraction of cumin seeds (CSEA) had significantly superior antioxidant activity compared to other cumin seeds fractions. Thymol, benzyl alcohol, and 2-methyl-3-phenylpropanal were analyzed as major volatile components in CSEA. Treatment of 50 and 75 μg/mL CSEA inhibited fat accumulation in 3T3-L1 adipocytes significantly (p < 0.05). When 3T3-L1 adipocytes were treated with CSEA at 75 μg/mL, the expressions of genes and proteins related to fat differentiation and accumulation were significantly reduced (p < 0.05). Therefore, CSEA could be used as antioxidants and as a functional ingredient in anti-adipogenic formulations.

Hypothetical Behavioral Interventions for Mitigating the Cardiovascular Effects of Long-Term Fine Particulate Matter Exposure: Analyses From 2 Prospective Cohorts

BACKGROUND

Whether healthy behaviors can attenuate the adverse association between ambient fine particulate matter (PM2.5) and cardiovascular disease (CVD) is inconclusive.

METHODS AND RESULTS

The parametric g-formula was used to quantify the potential reduction in PM2.5 effect on CVD under different scenarios of hypothetical behavioral interventions (including dietary patterns, physical activity, body mass index, alcohol consumption, smoking, and dietary supplements). Feasible intervention scenarios, defined on the basis of values considered feasible in previous real-world interventions (eg, overweight participants lose 6.69% of their weight). Intensive scenarios, in which all participants are adopting completely healthy behaviors (eg, maintain normal weight). We also estimate the effect of joint interventions that incorporate the above behaviors. Long-term PM2.5 exposure was associated with incident CVD in both cohorts, with the risk difference per 1000 person-years for a 5 μg/m3 increase in PM2.5 being 1.42 (95% CI, 1.04-1.79) in the UKB (UK Biobank) and 2.15 (95% CI, 1.65-2.59) in the Sichuan Cohort (China Multi-Ethnic Cohort, Sichuan Region). In both feasible and intensive scenarios, improving diet, physical activity, and body mass index could significantly reduce the risk difference of PM2.5 on CVD, with the reduced proportion ranging from 4.59% to 37.22%. A feasible joint hypothetical intervention on 6 behaviors would reduce the effect of PM2.5 on CVD by 31.47% (10.13%-57.26%) and 19.75% (10.78%-42.89%) in the low-pollution UK Biobank and high-pollution Sichuan cohort, respectively. A combination of more intensive interventions would reduce risk difference by 57.51% (21.64%-100.69%) and 45.54% (22.66%-106.66%), respectively.

CONCLUSIONS

Healthier behaviors could serve as individual-level complementary strategies to emission control for minimizing the health impact of PM2.5, whether in high- or low-pollution areas.

The Positive Effect of Akkermansia muciniphila postbiotics on the Glycolipid Metabolism of Caenorhabditis elegans Induced by High-Glucose Diet

BACKGROUND

Glycolipid metabolism is essential for maintaining metabolic homeostasis. As a new postbiotic, pasteurized Akkermansia muciniphila (P-AKK) is important for the regulation of immunity and metabolism.

OBJECTIVES

This study aimed to evaluate the effects of P-AKK on glycolipid metabolism in Caenorhabditis elegans fed a high glucose diet.

RESULTS

We discovered that feeding nematodes P-AKK improved their healthy lifespan when fed a high-glucose diet. Furthermore, P-AKK contributes to reducing the accumulation of glucose, advanced glycation end products, and lipids and maintains a better physiological state. In addition, P-AKK improved the composition of free fatty acids and decreased the total free fatty acid content of C. elegans. Transcriptome sequencing analysis revealed that P-AKK induced significant enrichment of carbohydrate, oxidative phosphorylation, and fatty acid metabolism pathways. These significantly enriched biological processes were closely related to glucose and lipid metabolism. Among them, P-AKK activated the β-oxidation of fatty acids while inhibiting the de novo synthesis of fatty acids to regulate fatty acid metabolism.

CONCLUSIONS

The administration of P-AKK positively affected the body phenotypes of C. elegans under high glucose conditions. P-AKK mitigated the fat accumulation induced by a high-glucose diet by regulating key metabolic enzymes, including acyl-CoA synthetase and stearoyl-CoA desaturase.

Anti-Obesity and Weight Management-Related Antioxidant Potential Properties of Calabrian Pine Extracts: Pinus nigra Subsp. laricio (Poir.) Maire

Natural extracts derived from plants have gained attention as potential therapeutic agents for obesity management. Some natural extracts were demonstrated to inhibit pancreatic lipase and alpha amylase, potentially influencing nutrient absorption and contributing to weight management. Pinus nigra subsp. laricio (Poir.) Maire, commonly known as the Calabrian pine or larch pine, is a subspecies of the black pine native to the mountains of southern Italy and Corsica. This study investigated the phytochemical content and antioxidant (DPPH and β-carotene bleaching assays) and enzymatic (lipase and amylase inhibition) activities of ethanolic extracts from apical shoots and branches, fractionated into n-hexane, dichloromethane, and ethyl acetate. All the extracts were also subjected to a preliminary evaluation of their anti-inflammatory potential by measuring the ability to inhibit nitric oxide (NO) production in RAW 264.7 macrophages. The ethyl acetate branch fraction exhibited the strongest antioxidant activity (DPPH IC50 15.67 ± 0.16 μg/mL), while the total branch extract best inhibited pancreatic lipase (IC50 0.62 mg/mL). Amylase inhibition was strongest in the ethyl acetate apical shoot fraction (IC50 22.05 ± 0.29 µg/mL). The branches' hexane and dichloromethane fractions showed the greatest anti-inflammatory potential, inhibiting NO production in RAW 264.7 cells with IC50 values comparable to the positive control.

Association of oxidative balance score with incident cardiovascular disease in patients with type 2 diabetes: findings of the UK Biobank study

BACKGROUND & AIMS

To clarify how dietary and lifestyle factors work on diabetes-related cardiovascular disease (CVD), we investigated whether the increased risk of CVD in patients with type 2 diabetes mellitus (T2DM) could be offset by an increase in diet and/or lifestyle with antioxidant potential.

RESEARCH DESIGN AND METHODS

A total of 7,658 individuals from UK Biobank (UKB) with T2DM but no diagnosed CVD were included in this study. We screened combinations of 16 nutrients and/or 4 lifestyles to calculate the Oxidative Balance Score (OBS), dietary OBS (DOBS), and lifestyle OBS (LOBS). Cox proportional hazards (CPH) regression models and mediation statistical models were performed.

RESULTS

After adjusting for covariates, CPH regression models showed inverse associations between both OBS and LOBS and CVD. The highest tertile of LOBS was significantly associated with a lower risk of CVD compared to the lowest tertile, with hazard ratios and 95% CIs as follows: Atherosclerotic Cardiovascular Disease (ASCVD) 0.81 (0.68-0.97), Coronary Artery Disease (CAD) 0.79 (0.67-0.93), Atrial Fibrillation (AF) 0.56 (0.45-0.70) and CVD mortality 0.67(0.51-0.88). Correspondingly, the results of associations between the highest tertile of OBS and risks of CVDs above were ASCVD 0.80 (0.64-0.99), CAD 0.83(0.68-1.01), AF 0.73 (0.57-0.92) and CVD mortality 0.68 (0.50-0.92). No associations between DOBS and CVDs were observed [ASCVD 0.83 (0.66-1.05), CAD 0.86 (0.70-1.05), AF 0.77 (0.60-1.00), and CVD mortality 0.79 (0.57-1.10)]. These results were consistent in stratified analyses. Additionally, we identified a mediating role for C-reactive protein (CRP) and white blood cell count (WBC) in the observed relations, with indirect effect and mediation estimates as follows: CRP - 0.003 6.0% (OBS and CAD), -0.008 17.2%, -0.003 11.7%, and - 0.010 14.5% (OBS/DOBS/LOBS and CVD mortality); WBC - 0.006 14.3%, -0.006 12.6%, -0.006 13.4%, -0.005 23.3% (OBS and CVDs), -0.008 11.8%, -0.008 11.9%, -0.008 11.8%, and - 0.005 5.3% (LOBS and CVDs).

CONCLUSION

Sustained adherence to diets and lifestyles with high antioxidant potential may significantly reduce the risk of CVD in individuals with T2DM.

Serum magnesium and calcium were inversely associated with hemoglobin glycation index and triglyceride-glucose index in adults with coronary artery disease

Little is known about the associations of magnesium (Mg) and calcium (Ca) with hemoglobin glycation index (HGI) and triglyceride-glucose index (TyG) in adults. In this study, we examined the associations of serum Mg and Ca with HGI and TyG in adults with coronary artery disease (CAD). This hospital-based cross-sectional study included 10757 CAD patients with a mean age of 61.6 years. Serum concentrations of Mg and Ca were measured in clinical laboratory. Overall, serum Mg and Ca were inversely associated with HGI and TyG. In multivariable analyses, Mg and Ca were inversely associated with HGI (MgQ4 vs. Q3: -0.601 vs. -0.528; CaQ4 vs. Q1: -0.769 vs. -0.645). In terms of TyG, inverse associations of serum Mg and Ca with TyG were observed. The corresponding TyG values were 9.054 (vs. 9.099) for Mg and 9.068 (vs. 9.171) for Ca in the fourth quartile compared with the first quartile. Moreover, Mg, Ca or Mg/Ca ratio were also inversely associated with HbA1c and FBG. In path analysis, no mediating effects of obesity on "serum Mg (or Ca)- HGI (or TyG)" associations were observed. Generally, our study identified the inverse associations of the serum Mg and Ca levels with HGI and TyG in adults with CAD. Large sample longitudinal study, and particularly randomized controlled trials, are warranted to validate our findings and overcome the limitations of cross-sectional studies.

The pharmacology of vitamin C

Ascorbic acid, the reduced form of vitamin C, is a ubiquitous small carbohydrate. Despite decades of focused research, new metabolic functions of this universal electron donor are still being discovered and add to the complexity of our view of vitamin C in human health. Although praised as an unsurpassed water-soluble antioxidant in plasma and cells, the most interesting functions of vitamin C seem to be its roles as specific electron donor in numerous biological reactions ranging from the well-known hydroxylation of proline to cofactor for the epigenetic master regulators ten-eleven translocation enzymes and Jumonji domain-containing histone-lysine demethylases. Some of these functions may have important implications for disease prevention and treatment and have spiked renewed interest in, eg, vitamin C's potential in cancer therapy. Moreover, some fundamental pharmacokinetic properties of vitamin C remain to be established including if other mechanisms than passive diffusion governs the efflux of ascorbate anions from the cell. Taken together, there still seems to be much to learn about the pharmacology of vitamin C and its role in health and disease. This review explores new avenues of vitamin C and integrates our present knowledge of its pharmacology. SIGNIFICANCE STATEMENT: Vitamin C is involved in multiple biological reactions of which most are essential to human health. Hundreds of millions of people are considered deficient in vitamin C according to accepted guidelines, but little is known about the long-term consequences. Although the complexity of vitamin C's physiology and pharmacology has been widely disregarded in clinical studies for decades, it seems clear that a deeper understanding of particularly its pharmacology holds the key to unravel and possibly exploit the potential of vitamin C in disease prevention and therapy.

Genetic interaction between oxidative stress and body mass index in a Spanish population

Oxidative stress may act as a contributing factor in the development of an elevated body mass index (BMI). Oxidative stress has the potential to modulate genetic activity at various levels, including gene transcription and protein function regulation. Nevertheless, the interplay between genetic variants and oxidative stress in relation to BMI remains to be elucidated. Based on this premise, we studied the potential association between 723 single-nucleotide polymorphisms (SNPs) located within a set of 212 genes and both BMI and oxidative stress parameters in 1502 adults from the general Spanish population (Hortega Study). Oxidative stress parameters measured included malondialdehyde (MDA) levels, 8-oxo-2'-deoxyguanosine (8-oxo-dG) levels and oxidised/reduced glutathione ratio (GSSG/GSH). We also examined the potential impact of the interaction between these SNPs and oxidative stress levels on BMI. The genes selected regulate several key biological processes, including obesity, blood pressure, inflammation, lipid metabolism and redox homeostasis. Our findings indicate a robust association between specific genes and both BMI and oxidative stress parameters. Significant BMI-related interactions between genes and oxidative stress parameters were identified, which have a multifactorial impact on oxidative stress modulation and on BMI. SNPs identified in genes such as NPPA, CPT1A, DDIT3, NOX and IL6ST were significantly associated with all oxidative stress parameters analysed, indicating a substantial influence on BMI modulation. The results provide compelling evidence of a significant relationship between oxidative stress levels and genetic background. Our data provide new insights into BMI modulation by oxidative stress levels, highlighting a role for TNF as a key player in the interrelation of oxidative stress and BMI.

Elucidating the effect of camel α-lactalbumin in modulating obesity-related metabolic disorders in an obese rat model

Camel α-Lactalbumin (α-LACc) has been shown to exert bioactivities for Reactive oxygen species (ROS) scavenging and anti-inflammation, showing the ability to treat obesity-related metabolic disorders. Herein, we present a novel process to purify α-LACc in a single chromatographic step from camel whey in a flow-through format. We also demonstrate the role of α-LACc modulation strategies for the treatment of obesity. An in-vivo study was systematically carried-out, in which an intragastric administration of α-LACc in rats experiencing obesity showed ameliorating effect on hepatic steatosis and dyslipidemia. In addition, we demonstrated that the reduction of inflammation and oxidative stress by α-LACc was effective, and importantly, the enhancement of antioxidant defenses was achieved. Furthermore, we found that the peroxynitrite scavenging ability of α-LACc could help restore the hepatorenal function. Finally, we showed that α-LACc could improve insulin resistance-associated glucose metabolism and insulin sensitivity disorders caused by obesity. This work has developed a novel one-step purification process of α-LACc from camel whey without the use of organic solvents. Our purified α-LACc may serve as a promising therapeutic agent in the treatment of obesity-related metabolic disorders by synergistically alleviating lipid accumulation, inflammation, oxidative stress and insulin sensitivity.

The relation between body mass index and target organ damage and the mediating role of blood pressure

BACKGROUND/OBJECTIVES

The relationship between obesity and blood pressure (BP) is well known, but limited data exists regarding its relationship with target organ damage (TOD). Therefore, this study aimed to examine the relationship between body mass index (BMI) and TOD and the mediating role of BP.

SUBJECTS/METHODS

2555 adults (52.0% women) who visited a local Hypertension Unit with valid measures on weight, height, 24 h ambulatory BP monitoring, office BP measurements, echocardiography, carotid ultrasonography and blood creatinine levels, included in this cross-sectional study. BMI was used to categorize participants as having normal weight (< 25 kg/m2), overweight (25-29.9 kg/m2) or obesity (≥ 30 kg/m2). The intima-media thickness (IMT) of the common (CCA) and the internal (ICA) carotid artery, left ventricular mass (LVM), LVM index (LVMI) and estimated glomerular filtration rate (eGFR) were estimated and used as TOD indices. Linear regression models were used to examine the relationship between obesity and BP measurements or TOD, while structural equation modeling (SEM) for mediation analysis.

RESULTS

Obesity was significantly related to 24-hour systolic BP (b = 3.72, 95%CI: 2.24-5.21, p < 0.001), CCA-IMT (b = 0.04, 95%CI: 0.02-0.05, p < 0.001), ICA-IMT (b = 0.03, 95%CI: 0.01-0.05, p = 0.020), and LVMI (b = 7.54, 95CI%: 4.25-10.83, p < 0.001). The mediation analysis revealed that 24-hour systolic BP mediated by 27.9% the relationship between BMI and CCA-IMT, by 31.3% the relationship between BMI and ICA-IMT, and by 18.1% the relationship between BMI and LVMI.

CONCLUSIONS

These results indicate that obesity is associated with indices of asymptomatic cardiac remodeling and vascular atherosclerosis, and systolic BP mediates these relationships.

Oxidative Stress in Pediatric Asthma: Sources, Mechanisms, and Therapeutic Potential of Antioxidants

Pediatric asthma is a common respiratory condition in children, characterized by a complex interplay of environmental and genetic factors. Evidence shows that the airways of stimulated asthmatic patients have increased oxidative stress, but the exact mechanisms through which this stress contributes to asthma progression are not fully understood. Oxidative stress originates from inflammatory cells in the airways, producing significant amounts of reactive oxygen species (ROS) and reactive nitrogen species (RNS). External factors such as cigarette smoke, particulate matter, and atmospheric pollutants also contribute to ROS and RNS levels. The accumulation of these reactive species disrupts the cellular redox balance, leading to heightened oxidative stress, which activates cellular signaling pathways and modulates the release of inflammatory factors, worsening asthma inflammation. Therefore, understanding the sources and impacts of oxidative stress in pediatric asthma is crucial to developing antioxidant-based treatments. This review examines the sources of oxidative stress in children with asthma, the role of oxidative stress in asthma development, and the potential of antioxidants as a therapeutic strategy for pediatric asthma.

Association between healthy neuroticism and eating behavior as revealed by the NKI Rockland Sample

Trait neuroticism predicts an increased risk of mortality. However, high levels of both neuroticism and conscientiousness (i.e., healthy neuroticism) are associated with various positive health behaviors. Eating behavior is a modifiable risk factor for obesity and metabolic diseases. This study investigated the cross-sectional and longitudinal associations between healthy neuroticism and eating behaviors. The data from the Nathan Kline Institute for Psychiatric Research-Rockland Sample included 712 adults with complete assessments of personality, eating behaviors, and metabolic markers. Linear and mixed linear regression models were used to examine cross-sectional and longitudinal associations of eating behaviors and personality traits, adjusting for sociodemographics, sleep quality, and body mass index (BMI). Healthy neuroticism cross-sectionally predicted the disinhibition and hunger dimensions of eating behavior, a result that withstood the inclusion of disease burden, clinical metabolic markers, and other personality traits. Longitudinally, healthy neuroticism did not predict changes in eating behavior. Greater conscientiousness scores were associated with increased restraint. These findings provide the first evidence that neuroticism is associated with less maladaptive eating behavior when modulated by conscientiousness. The implications of these associations for the relationships between eating behavior, metabolic health, and personality are discussed.

Investigation of calonysterone and 20-hydroxyecdysone effects in high-fat, high-sugar diet-induced obesity rat model

Globally, the incidence of obesity among adults has significantly risen since 1990, with a more than twofold rise in prevalence. Similarly, the incidence of obesity among adolescents has increased fourfold. Overweight constitutes a significant health and social issue in developed nations globally. Conventional therapies such as lifestyle modification (nutrition and physical activity) have limited weight reduction. Drug therapy is often not possible or cannot be afforded due to poor patient compliance or therapeutic side effects. 20-hydroxyecdysone (20E) is a worldwide used 'green anabolic' dietary supplement that has beneficial effects in some animal models of metabolic diseases. Our ongoing research examines the impacts of 20E and calonysterone (CAL) in an animal model with a diet high in fats and sugars (HFHSD). Glucose tolerance tests assessed prediabetic status and RT-PCR and Western blot analysis determined interleukin-6 (IL6) expression. The concertations of superoxide dismutase, catalase, adiponectin, leptin, and IL-6 were quantified by ELISA. Total antioxidant capacity was assessed using a colorimetric assay kit, and global DNA methylation was also measured. CAL entirely prevented HFHSD-induced obesity and decreased the inflammatory cytokine (IL6) level and antioxidant activity in our model. Both 20E and CAL normalized the changed plasma concentration of adiponectin and leptin after the HFHS diet. The administration of CAL and 20E in obese rats significantly increased the percent of total DNA methylation. This is the first in vivo study on this natural ecdysteroid, which may offer new alternatives for treating metabolic diseases. Based on our findings, we are supposed to show new preventive possibilities for overweight-induced chronic progressive diseases.

Oxidative Balance Score Calculated Using Different Methods and Its Associations with Colorectal Cancer Risk

BACKGROUND

The oxidative balance score (OBS) measures oxidative stress from diet and lifestyle, but research linking it to colorectal cancer (CRC) risk is scarce and varies in calculation methods.

METHODS

We conducted a case-control study in Guangzhou, China, involving 2799 CRC cases and an equal number of sex- and age-matched controls. We adopted and compared four different methods for calculating the OBSs. The odds ratio (OR) and 95% confidence interval (95%CI) for the relationship between OBS and CRC risk were determined using an unconditional logistic regression model. Restricted cubic splines were used to explore potential non-linear relationships. Additionally, stratified analyses were performed by sex, and subgroup analyses were performed based on the tumor site.

RESULTS

Among the four OBSs assessed, OBS-1 demonstrated superior performance. Higher adherence to four OBSs was associated with a lower risk of CRC. The adjusted ORs (95%CIs) for the highest quartile compared to the lowest quartile were as follows: 0.42 (0.35, 0.50) for OBS-1, 0.43 (0.36, 0.51) for OBS-2, 0.50 (0.42, 0.59) for OBS-3, and 0.43 (0.36, 0.51) for OBS-4. Linear relationships were observed between four OBSs and CRC risk (all p-Nonlinear > 0.05). Stratified analysis by sex revealed that all four OBSs were negatively associated with CRC risk in both male and female patients. Subgroup analysis by cancer site indicated that four OBSs were negatively associated with the risk of both colon and rectal cancer.

CONCLUSIONS

All four OBSs were negatively associated with CRC risk, with OBS-1 showing the strongest association in our analysis.

Crosstalk Between Antioxidants and Adipogenesis: Mechanistic Pathways and Their Roles in Metabolic Health

The interplay between oxidative stress and adipogenesis is a critical factor in the development of obesity and its associated metabolic disorders. Excessive reactive oxygen species (ROS) disrupt key transcription factors such as peroxisome proliferator-activated receptor gamma (PPARγ) and CCAAT/enhancer-binding protein alpha (C/EBPα), impairing lipid metabolism, promoting adipocyte dysfunction, and exacerbating inflammation and insulin resistance. Antioxidants, classified as endogenous (e.g., glutathione, superoxide dismutase, and catalase) and exogenous (e.g., polyphenols, flavonoids, and vitamins C and E), are pivotal in mitigating these effects by restoring redox balance and preserving adipocyte functionality. Endogenous antioxidants neutralize ROS and safeguard cellular structures; however, under heightened oxidative stress, these defenses are often insufficient, necessitating dietary supplementation. Exogenous antioxidants derived from plant-based sources, such as polyphenols and vitamins, act through direct ROS scavenging, upregulation of endogenous antioxidant enzymes, and modulation of key signaling pathways like nuclear factor kappa B (NF-κB) and PPARγ, reducing lipid peroxidation, inflammation, and adipocyte dysfunction. Furthermore, they influence epigenetic regulation and transcriptional networks to restore adipocyte differentiation and limit lipid accumulation. Antioxidant-rich diets, including the Mediterranean diet, are strongly associated with improved metabolic health, reduced obesity rates, and enhanced insulin sensitivity. Advances in personalized antioxidant therapies, guided by biomarkers of oxidative stress and supported by novel delivery systems, present promising avenues for optimizing therapeutic interventions. This review, "Crosstalk Between Antioxidants and Adipogenesis: Mechanistic Pathways and Their Role in Metabolic Health", highlights the mechanistic pathways by which antioxidants regulate oxidative stress and adipogenesis to enhance metabolic health.

Artesunate protects against a mouse model of cerulein and lipopolysaccharide‑induced acute pancreatitis by inhibiting TLR4‑dependent autophagy

Severe acute pancreatitis (SAP) is a severe clinical condition associated with high rates of morbidity and mortality. Multiple organ dysfunction syndrome that follows systemic inflammatory response syndrome is the leading cause of SAP‑related death. Since the inflammatory mechanism of SAP remains unclear, there is currently a lack of effective drugs available for its treatment. Therefore, it is important to study effective therapeutic drugs and their molecular mechanisms based on studying the inflammatory mechanism of SAP. In the present study, in vivo, a mouse model of AP induced by cerulein (CR) combined with lipopolysaccharide (LPS) was established to clarify the therapeutic effect of artesunate (AS) in AP mice by observing the gross morphological changes of the pancreas and surrounding tissues, calculating the pancreatic coefficient, and observing the histopathology of the pancreas. The serum amylase activity in AP mice was detected by iodine colorimetry and the superoxide dismutase activity in the pancreas was detected by WST‑1 assay. The levels of proinflammatory cytokines in the serum, the supernatant of pancreatic tissue homogenates and the peritoneal lavage fluid were detected by ELISA assay. The total number of peritoneal macrophages was assessed using the cellular automatic counter, and the expression of proteins related to autophagy, and the TLR4 pathway was detected by immunohistochemistry and western blotting. In vitro, the effect of trypsin (TP) combined with LPS was observed by detecting the release of proinflammatory cytokine levels from macrophages by ELISA assay, and detecting the expression of proteins related to autophagy and the TLR4 pathway by immunofluorescence and western blotting. The present study revealed that AS reduced pancreatic histopathological damage, decreased pancreatic TP and serum amylase activities, increased superoxide dismutase activity, and inhibited pro‑inflammatory cytokine levels in a mouse model of AP induced by cerulein combined with lipopolysaccharide. In vitro, TP combined with LPS was found to synergistically induce pro‑inflammatory cytokine release from mouse macrophages and RAW264.7 cells, while AS could inhibit cytokine release. Furthermore, CR combined with LPS synergistically increased amylase activity in acinar cells, whereas AS decreased amylase activity. Autophagy serves an important role in the release of pro‑inflammatory cytokines. In the present study, it was revealed that the autophagy inhibitor LY294002 suppressed the release of pro‑inflammatory cytokines from macrophages treated with TP combined with LPS, and pro‑inflammatory cytokine release was not further reduced by AS combined with LY294002. Furthermore, AS not only inhibited the expression of important molecules in the Toll‑like receptor 4 (TLR4) signaling pathway, but also inhibited autophagy proteins and reduced the number of autolysosomes in mice with AP and in macrophages. In conclusion, these results suggested that AS may protect against AP in mice via inhibition of TLR4‑dependent autophagy; therefore, AS may be considered a potential therapeutic agent against SAP.

FTO rs17817449 Variant Increases the Risk of Severe Obesity in a Brazilian Cohort: A Case-Control Study

Purpose

Obesity is a complex disease caused by a combination of genetic, environmental, and epigenetic factors, and is associated with an increased risk of chronic diseases. The leptin-melanocortin pathway integrates peripheral signals about the body's energy stores with a central neuronal circuit in the hypothalamus. This pathway has been extensively studied over the years, as genetic variations in genes related to it may play a crucial role in determining an individual's susceptibility to obesity. Therefore, we analyzed the association between obesity and specific polymorphisms in leptin-melanocortin-related genes such as LEPR rs1137101, POMC rs1042571, LEP rs7799039, BDNF rs6265, FTO rs17817449, CART rs121909065, and NPY rs16147/rs5574.

Patients and Methods

The study enrolled 501 participants from Rio de Janeiro, Brazil, with obesity class II or greater (BMI ≥ 35 kg/m2) and normal weight controls (18.5≤ BMI ≤24.9 kg/m2). We collected demographic, body composition, biochemical, and genotyping data by real-time PCR, and performed logistic and linear regression analyses to investigate the association of polymorphisms with severe obesity status and obesity-related quantitative parameters.

Results

Individuals with severe obesity had significantly higher anthropometric measures, blood pressure, and biochemical levels. The FTO rs17817449 TT genotype was associated with a significantly higher risk of developing severe obesity, and distinct cytokine expression was observed across the FTO rs17817449 genotypes. The BDNF rs6265 dominant-model and NPY rs16147 CC genotypes were associated with triglyceride levels and childhood obesity, respectively. Finally, individuals with obesity were more likely to carry a greater number of risk alleles than those without obesity.

Conclusion

Our study observed an important association between FTO rs17817449 polymorphism with obesity and obesity-related traits. Additionally, BDNF rs6265 dominant-model was associated with triglyceride serum levels, and NPY rs16147 may have a role in obesity onset.

Maximal Intensity Exercise Induces Adipokine Secretion and Disrupts Prooxidant-Antioxidant Balance in Young Men with Different Body Composition

Maximal physical effort induces a disturbance in the body's energy homeostasis and causes oxidative stress. The aim of the study was to determine whether prooxidant-antioxidant balance disturbances and the secretion of adipokines regulating metabolism, induced by maximal intensity exercise, are dependent on body composition in young, healthy, non-obese individuals. We determined changes in the concentration of advanced protein oxidation products (AOPP), markers of oxidative damage to nucleic acids (DNA/RNA/ox), and lipid peroxidation (LPO); catalase (CAT), superoxide dismutase (SOD), and glutathione peroxidase (GPx) activity, as well as concentrations of visfatin, leptin, resistin, adiponectin, asprosin, and irisin in the blood before and after maximal intensity exercise in men with above-average muscle mass (NFAT-HLBM), above-average fat mass (HFAT-NLBM), and with average body composition (NFAT-NLBM). We corrected the post-exercise results for the percentage change in plasma volume. In all groups after exercise, there was an increase in LPO and resistin. In HFAT-NLBM, additionally, an increase in CAT and a decrease in SOD activity were noted, and in NFAT-NLBM, an increase in visfatin concentration was observed. In our study, the effect was demonstrated of a maximal effort on six (LPO, CAT, SOD, visfatin, resistin, and asprosin) of the twelve parameters investigated, while the effect of body composition on all parameters investigated was insignificant. Maximal intensity aerobic exercise induces secretion of resistin and damages lipids regardless of the exercising subjects' body composition. Large fat tissue content predisposes to exercise-induced disorders in the activity of antioxidant enzymes. We have also shown that it is necessary to consider changes in blood plasma volume in the assessment of post-exercise biochemical marker levels.

Association between brominated flame retardants and obesity: a mediation analysis through markers of oxidative stress and inflammation

BACKGROUND

Recent studies have provided compelling evidence that exposure to brominated flame retardants (BFRs) can adversely affect human health. We aim to explore the potential impact of BFRs on adiposity and central obesity.

METHODS

Data from the National Health and Nutrition Examination Surveys (NHANES) cycles conducted between 2009 and 2014 was used to study the connections between variables. After filtering, we analyzed a sample of 4,110 adults aged 20 years and above. Our goal was to examine the potential association between BFRs and consequences and investigate the part played by oxidative stress and inflammatory markers as intermediaries. To achieve this, we used advanced statistical methods such as weighted quantile sum (WQS) regression, quantile-based g-computation (QGC), and the Bayesian kernel machine regression (BKMR).

RESULTS

The findings showed that among the examined chemicals, exposure to PBDE85 (weight: 41%), PBDE100 (24%), and PBB153 (23%) may be the dominant contributors to general obesity risk. Upon controlling for all variables that could impact the results, it was found that the QGC outcomes indicated a positive correlation between exposure to mixtures of brominated flame retardants and the occurrence of abdominal obesity (OR = 1.187, 95% CI: 1.056-1.334, p = 0.004). Significant contributions were made by PBDE85 (52%), PBB153 (27%), and PBDE100 (21%). Mediation analysis shows that lymphatic cells (LC) and albumin (ALB) partially mediate the link between brominated flame retardants and obesity. The results of BKMR are generally consistent with those of WQS and QGC.

CONCLUSION

At a population level, our research has revealed a noteworthy correlation between BFRs and obesity. However, further investigation is required through prospective cohort studies and in-depth mechanistic exploratory studies.

Chlorinated paraffins in particulate matter associated with asthma and its relative symptoms in school-aged children and adolescents: A cross-sectional survey in South China

Particulate matter (PM) and contaminants attached to PM can increase the risk of respiratory diseases. However, the health risk assessment of chlorinated paraffins (CPs), an emerging pollutant occupying a high proportion of persistent organic pollutants (POPs) in PM, remains scarce. This study aimed to evaluate the association between PM2.5-bound CPs and asthma, along with relative symptoms, in school-aged children and adolescents. A large sample size cross-sectional study (n = 131,304) was conducted in the Pearl River Delta (PRD). The results showed that increased quantiles of ∑CPs were associated with odds ratios (ORs) of 1.22 (95%CI: 1.20-1.25), 1.38 (95%CI: 1.35-1.41), 1.17 (95%CI: 1.15-1.19), 1.52 (95%CI: 1.48-1.56), 1.66 (95%CI: 1.61-1.71), and 1.33 (95%CI: 1.30-1.37) for ever diagnosed asthma, current asthma, wheeze, current wheeze, persistent phlegm, and persistent cough, respectively. Additionally, C11-, C12-SCCPs and C14-, C17-MCCPs contributed the most positive weight to the risk of asthma and relative symptoms. These findings provide cutting-edged evidence for the health risk assessment of CPs, which is crucial for developing effective CPs management strategy.

Effect of Cashew Nut Consumption on Biomarkers of Copper and Zinc Status in Adolescents with Obesity: A Randomized Controlled Trial

BACKGROUND

Children and adolescents with obesity have altered serum copper (Cu) and zinc (Zn) levels, which are associated with oxidative stress, inflammation, and health outcomes. The inclusion of cashew nuts in an adequate diet may provide health benefits and help improve the mineral status of individuals with obesity.

OBJECTIVE

To evaluate the effects of cashew nut consumption on biomarkers of Cu and Zn status in adolescents with obesity.

METHODS

This was a randomized controlled trial conducted in adolescents. The participants were divided into a control group (CON) and a cashew nut group (CASN). The CASN group received 30 g/day of roasted cashew nuts for 12 weeks, and both groups received nutritional counseling during the study. Anthropometric, dietary, and biochemical parameters (Zn, Cu, and superoxide dismutase (SOD)) were assessed at the baseline and at the end of the study. Association tests, within-group and between-group mean comparisons, and analyses of variation between study periods (Δ T12-T0) were performed.

RESULTS

The sample consisted of 81 adolescents who completed the intervention period, resulting in 54 in the CASN group and 27 in the CON group. After the intervention, the CASN group presented a decrease in plasma Cu (p = 0.004) and an increase in SOD (p = 0.030). Both groups showed an increase in plasma Zn (p < 0.050) and a decrease in the Cu/Zn ratio (p < 0.001). CASN had a negative effect on the Cu concentration, which was significantly different from that of CON (p = 0.004).

CONCLUSIONS

The consumption of cashew nuts for 12 weeks reduced plasma Cu levels in adolescents with obesity. Nutritional counseling may have contributed to the increase in plasma Zn levels in all the study participants.

Nitrate-Nitrite-Nitric Oxide Pathway, Oxidative Stress, and Fertility Outcomes in Morbidly Obese Women Following Bariatric Surgery: A Systematic Review

Obesity reduces nitric oxide (NO) production due to endothelial nitric oxide synthase (eNOS) dysfunction, resulting in oxidative stress, mitochondrial dysfunction, and chronic inflammation. These factors have a negative impact on reproductive health, including oocyte quality, endometrial receptivity, and embryo implantation. When oxidative stress affects eNOS function, the nitrate-nitrite-nitric oxide (NO3-NO2-NO) pathway provides an alternate route for NO production. Bariatric surgery has been found to restore NO production, reduce oxidative stress, and improve fertility in morbidly obese women. This review investigates the molecular mechanisms by which bariatric surgery affects eNOS activity, the NO3-NO2-NO pathway, and oxidative stress reduction, with an emphasis on intracellular activities including mitochondrial biogenesis and NO production. A systematic review employing PRISMA criteria included articles published between 2000 and 2024 from PubMed, Scopus, and Embase that investigated NO3-NO2 pathways, oxidative stress markers, hormonal alterations, and reproductive outcomes in morbidly obese women following bariatric surgery. After evaluating 1542 studies, 11 were selected for the final analysis. Results showed a 45% increase in NO3-NO2 levels (p < 0.001), a 35% reduction in oxidative stress indicators (p < 0.01), a 60% increase in pregnancy rates, and a 50% increase in spontaneous ovulation rates following surgery. These benefits were connected to improved mitochondrial function and endometrial receptivity as a result of reduced oxidative stress and inflammation. The NO3-NO2-NO route is critical in compensating for lower NO generation under oxidative stress and hypoxia, and bariatric surgery significantly improves this pathway to optimize blood flow, mitochondrial function, and reproductive results.

Integrating the metabolic and molecular circuits in diabetes, obesity and cancer: a comprehensive review

The progressive globalization of sedentary lifestyles and diets rich in lipids and processed foods has caused two major public health hazards-diabetes and obesity. The strong interlink between obesity and type 2 diabetes mellitus and their combined burden encompass them into a single term 'Diabesity'. They have also been tagged as the drivers for the onset of cancer. The clinical association between diabetes, obesity, and several types of human cancer demands an assessment of vital junctions correlating the three. This review focuses on revisiting the molecular axis linking diabetes and obesity to cancer through pathways that get imbalanced owing to metabolic upheaval. We also attempt to describe the functional disruptions of DNA repair mechanisms due to overwhelming oxidative DNA damage caused by diabesity. Genomic instability, a known cancer hallmark results when DNA repair does not work optimally, and as will be inferred from this review the obtruded metabolic homeostasis in diabetes and obesity creates a favorable microenvironment supporting metabolic reprogramming and enabling malignancies. Altered molecular and hormonal landscapes in these two morbidities provide a novel connection between metabolomics and oncogenesis. Understanding various aspects of the tumorigenic process in diabesity-induced cancers might help in the discovery of new biomarkers and prompt targeted therapeutic interventions.

The Association Between Telomere Length and Diabetes Mellitus: Accumulated Evidence From Observational Studies

OBJECTIVE

In order to assess the associations between telomere length (TL) and diabetes mellitus (DM), especially type 2 diabetes (T2DM), we performed this systematic review and meta-analysis.

METHODS

PubMed, Embase, and Web of Science were thoroughly searched up to July 11, 2023. The pooled standardized mean difference (SMD) and the 95% confidence interval (CI) were evaluated using the random-effects model. Age, sex, study design, duration of diabetes, region, sample size, and body mass index (BMI) were used to stratify subgroup analyses.

RESULTS

A total of 37 observational studies involving 18 181 participants from 14 countries were included in the quantitative meta-analysis. In this study, patients with diabetes had shorter TL than the non-diabetic, whether those patients had T1DM (-2.70; 95% CI: -4.47, -0.93; P < .001), T2DM (-3.70; 95% CI: -4.20, -3.20; P < .001), or other types of diabetes (-0.71; 95% CI: -1.10, -0.31; P < .001). Additionally, subgroup analysis of T2DM showed that TL was significantly correlated with age, sex, study design, diabetes duration, sample size, detection method, region, and BMI.

CONCLUSION

A negative correlation was observed between TL and DM. To validate this association in the interim, more extensive, superior prospective investigations and clinical trials are required.

Exposure to air pollution is associated with adipokines in midlife women: The Study of Women's Health Across the Nation

This study examined the associations between ambient air pollution exposure, including fine particulate matter (PM2.5), nitrogen dioxide (NO2), and ozone (O3), with serum levels of high molecular weight (HMW) adiponectin, leptin, and soluble leptin receptors (sOB-R) in midlife women. The analysis included 1551 participants from the Study of Women's Health Across the Nation (median age = 52.3 years) with adipokine data from 2002 to 2003. Annual air pollution exposures were assigned by linking residential addresses with high-resolution machine learning models at a 1-km2 resolution. Multivariable linear regression and Bayesian kernel machine regression (BKMR) were used to evaluate the associations for individual pollutants and pollutant mixtures. After adjusting for confounders in linear regression models, an interquartile range increase in PM2.5 (2.5 μg/m3) was associated with a 4.6 % lower HMW adiponectin level (95 % CI: -8.8 %, -0.3 %). Exposure to air pollutant mixtures showed negative associations with HMW adiponectin and positive associations with leptin levels in BKMR models. These findings suggest that exposures to PM2.5, NO2, and O3 are associated with adverse levels of adipokines, which may contribute to obesity-related outcomes. Further research is needed to confirm these findings and explore the underlying biological mechanisms.

The Combination of Resveratrol and Conjugated Linoleic Acid Dienes Enhances the Individual Effects of These Molecules on De Novo Fatty Acid Biosynthesis in 3T3-L1 Adipocytes

Consuming food containing ingredients with a documented impact on lipid metabolism can help fight overweight and obesity. The simplest way to reduce the level of fatty acids is to block their synthesis or increase the rate of their degradation. This study aimed to determine the effect of resveratrol, cis-9, trans-11 conjugated linoleic acid (CLA), trans-10, cis-12 CLA, and various variants of their combinations on de novo fatty acid biosynthesis in 3T3-L1 adipocytes. The influence of the above-mentioned bioactive substances on cells grown under standard conditions and after induction of oxidative stress was measured. The effect of the tested compounds on the expression of selected genes related to the de novo fatty acid biosynthesis process (Fasn, Acc1, Acly, Prkaa1, Prkaa2, Prkaca, Srebp1) was evaluated. As part of the conducted experiments, how the level of the corresponding mRNA translates into the content of selected proteins (acetyl-CoA carboxylase 1 (ACC) and fatty acid synthase (FASN) was studied. It was found that the inhibition of fatty acid biosynthesis processes was stronger in the case of the combination of the tested CLA isomers (cis-9, trans-11 CLA, trans-10, cis-12 CLA) with resveratrol than in cases of their individual action.

LncRNAs Involved in Antioxidant Response Regulation as Biomarkers of Gestational Diabetes: A Study on H19, MALAT1 and MEG3

Recent findings highlighted the potential of long non-coding RNAs (lncRNAs) as novel indicators of gestational diabetes mellitus (GDM), as they demonstrate altered expression in metabolic disorders, oxidative stress (OS) and inflammation (IFM). The aim of this study was to evaluate the diagnostic potential and prognostic significance of the OS/IFM-related lncRNAs H19, MALAT1 and MEG3 in GDM and their correlations with redox status-related parameters. The relative quantification of selected lncRNAs from peripheral blood mononuclear cells (PBMCs) of GDM patients and controls (n = 50 each) was performed by qPCR. The expression levels were tested for correlations with metal ion concentrations, NRF2 expression, activities of glutathione reductase (GR), superoxide dismutase (SOD), catalase (CAT), serum thiol content, protein carbonyl level and thiobarbituric acid reactive substances. MALAT1 and H19 were significantly downregulated in GDM patients (p = 0.0095 and p = 0.012, respectively). A correlation was observed between H19 expression and zinc levels in both GDM patients and controls. MALAT1 expression positively correlated with NFE2L2 levels in GDM patients (p = 0.026), while H19 exhibited a positive correlation with GR activity in controls (p = 0.018) and an inverse correlation with SOD activity (p = 0.048). Our data show the disturbance of OS/IFM-lncRNAs in GDM pathogenesis and illustrate the biomarker potential of the analyzed lncRNAs, as well as of certain redox status parameters.

Exposure to ambient particulate matter and ovarian reserve impairment among reproductive age women in China

Ovarian aging, characterized by a decline in ovarian reserve, is a critical concern in female reproductive health. However, the evidence linking ambient air pollution exposure with ovarian reserve impairment remains limited. We aimed to estimate the association between exposure to fine particulate matter (PM2.5) and respirable particulate matter (PM10) and key indicators of ovarian reserve, including antral follicle count (AFC), ovarian volume (OV), anti-Müllerian hormone (AMH), follicle-stimulating hormone (FSH), estradiol (E2), luteinizing hormone (LH), FSH/LH ratio, and inhibin B (INHB). The cohort consisted of women attending an infertility clinic at the Tongji Reproductive and Environmental (TREE) study between 2018 and 2020. We used multivariate linear and Poisson regression models to estimate the association between PM2.5 and PM10 exposure and these ovarian reserve indicators. Our results showed that PM2.5 and PM10 exposure were associated with a reduction in AFC and an increase in E2 levels, highlighting the adverse effects of ambient air pollution on ovarian reserve. Our findings have important public health implications, emphasizing the urgent need for interventions to safeguard female reproductive health and reduce exposure to ambient air pollution.

The role and mechanism of various trace elements in atherosclerosis

Atherosclerosis is a slow and complex disease that involves various factors, including lipid metabolism disorders, oxygen-free radical production, inflammatory cell infiltration, platelet adhesion and aggregation, and local thrombosis. Trace elements play a crucial role in human health. Many trace elements, especially metallic ones, not only maintain the normal functions of organs but also participate in basic metabolic processes. The latest studies have revealed a close correlation between trace elements and the occurrence and progression of atherosclerosis. The imbalance of these trace elements can induce atherosclerosis or accelerate its progression through various mechanisms, which poses a significant threat to human health. Therefore, exploring the specific mechanism of trace elements on atherosclerosis is highly significant. In this review, we summarized the roles and mechanisms of iron, copper, zinc, magnesium, and selenium homeostasis and imbalance in atherosclerosis development, in order to identify novel targets and therapeutic strategies for treating atherosclerosis.

Linear relationship between triglyceride-glucose-body mass index and myopia in United States adolescents

PURPOSE

To determine the relationship between the triglyceride-glucose-body mass index (TyG-BMI) and the incidence of myopia in United States (US) adolescents.

METHODS

In this cross-sectional study, we utilized data from the National Health and Nutrition Examination Survey, with a focus on adolescents aged 12-19 years. Multivariate logistic regression models were used to determine the relationship between TyG-BMI and myopia. Furthermore, a restricted cubic spline function logistic regression model was used to explore the linear relationship between changes in TyG-BMI and myopia. Lastly, stratified analyses and interaction term tests were performed.

RESULTS

The incidence of myopia was noted to be 42.17% among US adolescents. TyG-BMI was significantly and linearly associated with myopia in adolescents (p < 0.05). Compared with adolescents in the low TyG-BMI group, those in the high TyG-BMI group exhibited a 20% higher risk of developing myopia (OR = 1.20, 95% CI: 1.0-1.5, p for trend < 0.05).

CONCLUSIONS

TyG-BMI is significantly and positively associated with myopia incidence in US adolescents. The higher incidence of myopia in the high TyG-BMI group suggests the importance of metabolic health for myopia development. Controlling metabolic health factors is essential for preventing myopia in adolescents.