Ellagic acid regulates hyperglycemic state through modulation of pancreatic IL-6 and TNF- α immunoexpression

Effects of Naringin and Zinc Treatment on Biochemical, Molecular, and Histological Alterations in Stomach and Pancreatic Tissues of STZ-Induced Diabetic Rats

Diabetes mellitus is a chronic metabolic disorder that affects multiple organs, including the stomach. This research examines the effects of naringin and/or zinc on stomach and pancreatic tissues of streptozotocin-induced diabetic rats. Type 2 diabetes is induced by intraperitoneal injection of nicotinamide and streptozotocin. Three weeks after diabetes induction, rats receive eight weeks of treatment. Malondialdehyde and total antioxidant capacity are estimated colorimetrically. Asprosin and P-selectin levels are assessed via ELISA. Quantitative RT-PCR analysis of nuclear factor kappa B (NF-кB), peroxisome proliferator-activated receptor gamma (PPAR γ), and nuclear factor erythroid 2-related factor 2 (Nrf-2) genes is carried out. Tumor necrosis factor-alpha (TNF-α) is assessed immunohistochemically, and stomach and pancreatic tissues are examined histologically. Combined naringin and zinc treatment significantly reduces gastric Malondialdehyde, serum asprosin, and P-selectin levels in serum, stomach, and pancreas compared to diabetic rats. Additionally, gastric NF-кB expression is significantly lower, while PPAR γ and Nrf-2 expressions are significantly higher compared to diabetic rats. Immunohistochemical analysis and histopathological examination confirm these findings. In conclusion, combined naringin and zinc treatment significantly improves gastric alterations in diabetic rats by reducing oxidative stress and inflammation. Nonetheless, it shows no additional impacts on pancreatic tissue compared to naringin or zinc alone.

Ellagic acid as potential therapeutic compound for diabetes and its complications: a systematic review from bench to bed

Diabetes mellitus (DM) is a worldwide-concerning disease with a rising prevalence. There are many ongoing studies aimed at finding new and effective treatments. Ellagic acid (EA) is a natural polyphenolic compound abundant in certain fruits and vegetables. It is the objective of this investigation to assess the effectiveness and preventive mechanisms of EA on DM and associated complications. This systematic review used PubMed, Scopus, and Google Scholar as search databases using a predetermined protocol from inception to June 2024. We assessed all related English studies, including in vitro, in vivo, and clinical trials. EA counteracted DM and its complications by diminishing inflammation, oxidative stress, hyperglycemia, apoptosis, insulin resistance, obesity, lipid profile, and histopathological alterations. Several mechanisms contributed to the anti-diabetic effect of EA, the most significant being the upregulation of nuclear factor erythroid 2-related factor 2 (Nrf2), heme oxygenase-1 (HO-1), peroxisome proliferator-activated receptor gamma (PPAR-γ), protein kinase B, and downregulation of nuclear factor-kappa-B (NF-κB) gene expression. EA also revealed protective effects against diabetes complications, such as diabetic-induced hepatic damage, testicular damage, endothelial dysfunction, muscle dysfunction, retinopathy, nephropathy, cardiomyopathy, neuropathy, and behavioral deficit. Administration of EA could have various protective effects in preventing, treating, and alleviating DM and its complications. Although it could be considered a cost-effective, safe, and accessible treatment, to fully establish the effectiveness of EA as a medication for DM, it is crucial to conduct further well-designed studies.

Ameliorating and Therapeutic Impact of Curcumin Nanoparticles Against Aluminum Oxide Nanoparticles Induced Kidney Toxicity, DNA Damage, Oxidative Stress, PCNA and TNFα Alteration in Male Rats

Aluminum oxide nanoparticles (Al2O3 NPs) are among the most extensively utilized nanoparticles in nanotechnology and that have negative impacts on the environment. Therefore, the intention of this work is to investigate the protective and therapeutic effects of curcumin in nanoform (Cur NPs) against Al2O3 NPs induced kidney toxicity, oxidative stress, DNA damage, and changes in necrosis factor alpha (TNFα) and proliferating cell nuclear antigen (PCNA) expressions in male rats. Fifty healthy adult male were divided into five groups [G1, control; G2, received 50 mg/kg/day for 4 weeks of Cur NPs orally; G3, received 6 mg/kg BW orally for 4 weeks of Al2O3 NPs; G4, (Cur NPs + Al2O3 NPs) received Cur NPs and Al2O3 NPs at a dose similar to G2 and G3, respectively for 4 weeks; G5, (Al2O3 NPs + Cur NPs) received Al2O3 NPs at a dose similar to G3 for 4 weeks then received Cur NPs at a dose similar to G2 for another 4 weeks]. Current results revealed that Al2O3 NPs induced a significant elevation in serum urea, creatinine, chloride, calcium, kidney malondialdehyde (MDA), DNA damage, injury, TNFα and PCNA expressions and a significant depletion in serum potassium, kidney superoxide dismutase (SOD), glutathione (GSH) as compared to control. On the other hand, treatments of Al2O3 NPs with Cur NPs induced modulation in all altered parameters and improved kidney functions and structure, with best results for the Al2O3 NPs + Cur NPs than Cur NPs + Al2O3 NPs. In conclusion, Cur NPs has the capacity to mitigate the renal toxicity induced by Al2O3 NPs in male albino rats.

Multi-omics reveals the effects of dietary supplementation with Bupleuri radix branch powder on gut microbiota and lipid metabolism: insights into gut microbial-muscle interactions

Improving livestock growth and raising the quality of livestock products have attracted much attention owing to the market's growing need for livestock products. Bupleuri Radix branches powder (BR) has a variety of health characteristics, but its effects on ruminant growth and animal product quality are still uncertain. This study explored the effects of BR on growth performance, health status, gut microbiota, and muscle lipid metabolism of Shaanxi fine-wool sheep (SFS), and examined the interaction between gut microbiota and lipid metabolism through correlation analysis. The results indicated that BR can regulate the immune function, intestinal VFAs, and enzyme activity of FSF by improving the gut microbiota, thereby affecting its muscle lipid metabolism. The lipid metabolite TG showed a strong positive correlation with the gut microbes Bacteroides and Fibrobacter, while Phosphatidylethanolamine and Phosphatidyl serine (PE and PS) showed a significant negative correlation with Fibrobacter. The above results indicate that gut microbiota and lipid metabolites interact with each other. BR has the effects of promoting SFS growth, improving body health, and improving meat quality. These findings offer new insights into improve animal growth performance and livestock product quality in modern farming.

IMPORTANCE

Enhancing livestock growth performance and improving meat quality are important guidelines for the development of the current animal husbandry industry; thus, we explored a comprehensive study of Bupleuri Radix (BR) on growth performance, gut microbiology, and muscle lipid metabolism in Shaanxi fine-wool sheep (SFS). Our research has found that BR could improve the growth performance of SFS and meat quality by affecting gut microbes. This study provides new solutions to improve the economic efficiency of animal husbandry.

Effects of Ellagic Acid on Glucose and Lipid Metabolism: A Systematic Review and Meta-Analysis

Background

Abnormal glucose and lipid metabolism (GALM) serve as both a cause and an inducer for the development of the disease. Improvement and treatment of GALM are an important stage to prevent the occurrence and development of the disease. However, current clinical treatment for GALM is limited. Ellagic acid (EA), a common polyphenol present in foods, has been shown to improve abnormalities in GALM observed in patients suffering from metabolic diseases.

Objective

This study used a meta-analysis method to systematically assess the effects of EA on GALM.

Method

As of November 8, 2023, a comprehensive search was conducted across 5 databases, namely, PubMed, Embase, Web of Science, Cochrane Library, and Google Scholar to identify randomized controlled trials (RCTs) in which EA served as the primary intervention for diseases related to GALM. The risk of bias within the included studies was assessed according to the Cochrane Handbook. All statistical analyzes were performed using RevMan 5.4 software.

Results

In this study, a total of 482 articles were retrieved, resulting in the inclusion of 10 RCTs in the meta-analysis. The results showed that EA could reduce fasting blood glucose (FBG) (p = 0.008), increase insulin secretion (p = 0.01), improve insulin resistance index (HOMA-IR) (p = 0.003), decrease triglyceride (TG) (p = 0.004), and reduce cholesterol (Chol) (p = 0.04) and low-density lipoprotein (LDL-c) (p = 0.0004). EA had no significant effect on waist circumference (WC), body weight (BW), body mass index (BMI), 2 hours after prandial blood glucose (2 h-PG), total cholesterol (TC), and high-density lipoprotein (HDL-c).

Conclusions

The effect of improvement in glucose and lipids of EA was closely related to the dose and the intervention time. EA can improve GALM caused by diseases. To corroborate the findings of this study and improve the reliability of the results, EA is imperative to refine the research methodology and increase the sample size in future investigations.

In Vitro and Molecular Docking Evaluation of the Anticholinesterase and Antidiabetic Effects of Compounds from Terminalia macroptera Guill. & Perr. (Combretaceae)

Alzheimer's disease (AD) and diabetes are non-communicable diseases with global impacts. Inhibitors of acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) are suitable therapies for AD, while α-amylase and α-glucosidase inhibitors are employed as antidiabetic agents. Compounds were isolated from the medicinal plant Terminalia macroptera and evaluated for their AChE, BChE, α-amylase, and α-glucosidase inhibitions. From 1H and 13C NMR data, the compounds were identified as 3,3'-di-O-methyl ellagic acid (1), 3,3',4'-tri-O-methyl ellagic acid-4-O-β-D-xylopyranoside (2), 3,3',4'-tri-O-methyl ellagic acid-4-O-β-D-glucopyranoside (3), 3,3'-di-O-methyl ellagic acid-4-O-β-D-glucopyranoside (4), myricetin-3-O-rhamnoside (5), shikimic acid (6), arjungenin (7), terminolic acid (8), 24-deoxysericoside (9), arjunglucoside I (10), and chebuloside II (11). The derivatives of ellagic acid (1-4) showed moderate to good inhibition of cholinesterases, with the most potent being 3,3'-di-O-methyl ellagic acid, with IC50 values of 46.77 ± 0.90 µg/mL and 50.48 ± 1.10 µg/mL against AChE and BChE, respectively. The compounds exhibited potential inhibition of α-amylase and α-glucosidase, especially the phenolic compounds (1-5). Myricetin-3-O-rhamnoside had the highest α-amylase inhibition with an IC50 value of 65.17 ± 0.43 µg/mL compared to acarbose with an IC50 value of 32.25 ± 0.36 µg/mL. Two compounds, 3,3'-di-O-methyl ellagic acid (IC50 = 74.18 ± 0.29 µg/mL) and myricetin-3-O-rhamnoside (IC50 = 69.02 ± 0.65 µg/mL), were more active than the standard acarbose (IC50 = 87.70 ± 0.68 µg/mL) in the α-glucosidase assay. For α-glucosidase and α-amylase, the molecular docking results for 1-11 reveal that these compounds may fit well into the binding sites of the target enzymes, establishing stable complexes with negative binding energies in the range of -4.03 to -10.20 kcalmol-1. Though not all the compounds showed binding affinities with cholinesterases, some had negative binding energies, indicating that the inhibition was thermodynamically favorable.

Whole Black Rice Flour Improves the Physicochemical, Glycemic, and Sensory Properties of Cracker Snacks

The present study describes the enhancement of the nutritional values of gluten-free rice crackers by adding whole black rice grain flour. The crackers were prepared by combining whole brown rice flour (WRF) and whole black rice flour (BRF) in ratios of 0% (WRC), 25% (25-BRC), 50% (50-BRC), 75% (75-BRC), and 100% (BRC). The resulting samples underwent in-vivo effects on postprandial blood glucose levels as well as physicochemical and sensory analysis. In comparison to WRC, the samples containing 100% added black rice flour presented higher nutritional qualities in terms of protein, by 16.61%, 8.64% for lipids, 5.61% for ash, 36.94% for crude fiber, 58.04% for total polyphenols, 95.49% for proanthocyanidins, and 88.07% for flavonoids. The addition of BRF had a suppressing effect on lightness (L*) and yellowness (b*), while redness (a*) increased. The results of the glycemic measurements confirmed that consumption of crackers made from brown or black whole-grain rice grain flour does not generate glycemic peaks above the limit of 30 mg/dL in baseline blood glucose levels. The results of developing rice crackers from black and brown flour blends showed promising physicochemical and nutritional properties and could provide a good alternative to wheat flour as a gluten-free product.

Impact of Saussurea lappa against foodborne parasite Trichinella spiralis experimental infections induced variation in DNA damage, oxidative stress and PCNA expression in rat skeletal muscles

Trichinellosis is a parasite zoonosis that is spread through ingesting raw or undercooked meat that contains the Trichinella spiralis (T. spiralis) infective larvae. It has three clinical phases: intestinal, migratory, and muscular. Kuth root, also known as Costus (Saussurea lappa) roots, is used in many traditional medical systems all over the world to treat a variety of illnesses, such as dyspepsia, diarrhoea, vomiting, and inflammation. Current study assessed the therapeutic Potential of costus roots extract (CRE) treatment on experimental trichinellosis induce changes in DNA damage, oxidative stress and Proliferating cell nuclear antigen (PCNA) expression in muscle fibers in male rats. A total of 60 male Sprague Dawley rats were divided into 6 groups (Gps) [Gp1, Negative control; Gp2, Costus (CRE); Gp3, Positive control or Infected rats with T. spiralis, Gp4; Pre-treated infection with CRE; Gp5 & Gp6, Post treated infection with CRE for one and two weeks respectively]. Current results revealed that; Trichinella spiralis experimentally infection induced significant elevation in tissue malondialdehyde (MDA), DNA damage, PCNA expression and significant depletion in tissue glutathione (GSH), superoxide dismutase (SOD) and catalase (Cat) activities. Pre or/and post CRE treated infected rats with T. spiralis (Gp4-Gp6) induced improvements and depletion in DNA damage, PCNA expression, MDA and elevation in GSH, SOD, catalase as compared to infected rats with T. spiralis (Gp3) with best results for the pretreatments (Gp4). Trichinella spiralis experimental infection induced DNA damage and oxidative stress in rat skeletal muscles and treatments with costus roots extract modulates these changes.

Therapeutic effects of vitamin B17 against anabolic steroid Trenorol induced testicular toxicity, injury, DNA damage and apoptosis in male rats

Several anabolic androgenic steroids (ASSs) are a group of synthetic molecules derived from testosterone and developed mainly for veterinary use that classed as a Schedule III and sometimes utilized by athletes to enlarge their muscles. Abuse of anabolic androgenic steroids can result in severe organ damage that cannot be repaired. Therefore; the objective of the current investigation was to examine the therapeutic effects of vitamin B17 (VitB17) on the testicular toxicity caused by the anabolic steroid Trenorol in male rats. Rats were randomly assigned into control, VitB17 (50 mg/kg b.wt./day, orally), Trenorol (received 10 mg/kg b.wt./week, IM) and Trenorol + VitB17 treated groups. At the end of experiment, hormonal assay, semen evaluation, testicular enzymes, and DNA damage were assessed. Besides, the histopathological and immunohistochemical investigations of the P53 expression were performed. Current results revealed that; Trenorol induced significant depletion in relative weights of testis (RWT), total testosterone follicle stimulating hormone (FSH), and luteinizing hormone (LH), sperm count, morphology index, viability, progressive motility, and testicular injury and a significant increase sperm abnormalities, testicular DNA damage and P53 experssions. Treatment of rats with Trenorol + VitB17 decreased the testicular toxicity, sperm parameters, DNA damage and apoptosis. We can conclude that; Trenorol induced toxicity, DNA damage and apoptosis in rat testis and treatments with VitB1 improved these parameters.

Comparative anti-inflammatory effect of extract from novel Korean strawberry cultivars (Fragaria × ananassa) on lipopolysaccharide-induced RAW264.7 macrophages and mouse model

BACKGROUND

Dietary interventions are crucial in modulating inflammation in humans. Strawberries are enjoyed by people of different ages as a result of their attractive phenotype and taste. In addition, the active compounds in strawberries may contribute to the reduction of inflammation. When developing new strawberry cultivars to address agricultural and environmental threats, the bioactivity of strawberries must be improved to maintain their health benefits.

RESULTS

We determined the phytochemical contents of extracts from a new Korean strawberry cultivar, with the CN7 cultivar extract possessing the highest total polyphenol and flavonoid contents compared to the CN5 and Seolhyang cultivar extracts. The new Korean strawberry cultivars reduced the expression of inflammatory-related genes in lipopolysaccharide (LPS)-induced RAW264.7 cells via the nuclear factor-kappa B signaling pathway, indicating an anti-inflammatory effect. The CN7 cultivar showed greater bioactivity potential and the highest ellagic acid content; hence, we assessed the effect of the CN7 cultivar in an LPS-stimulated mouse model. The CN7 cultivar treatment demonstrated its effectiveness in reducing inflammation via the downregulation of inflammatory cytokines secretion and gene expression.

CONCLUSION

The results obtained in the present study have revealed the observable differences of the newly developed strawberry cultivars with Seolhyang in mitigating inflammation induced by LPS. The enhanced phytochemical content of the CN7 cultivar extract may contribute to its improved anti-inflammatory effect. Therefore, it is crucial to maintain the nutritive benefits of strawberry during the development of new cultivation. © 2023 Society of Chemical Industry.

Effectiveness of curcumin nanoparticles in rat liver fibrosis caused by thioacetamide

Although curcumin possesses anti-inflammatory, antioxidant, and cytoprotective qualities, its low absorption limits its medicinal uses. Before examining how curcumin influenced rats' liver fibrosis when thioacetamide (TAA) was produced, the current study employed nanoparticles (NPs) to improve curcumin bioavailability. Sixty mature rats were separated into six groups (Group 1, control; Group 2, curcumin; Group 3, curcumin nanoparticles; Group 4, TAA; Group 5, TAA + curcumin; Group 6, TAA + curcumin NPs). TAA administration caused considerable increases in serum liver enzymes associated with a remarkable depletion in the levels of albumin and total protein relative to the control. In addition, a significant elevation in malonaldehyde (MDA) level with a significant depletion in the antioxidant enzymes activity was detected. Also, TAA had a significant effect on the inflammation markers represented by the elevation in tumor necrosis factor (TNFα) and DNA damage. Administration of curcumin or curcumin NPs in TAA-intoxicated rats significantly (p < .001, p < .0001) alleviates liver injury by correcting antioxidant status, inflammatory markers, and oxidative stress. The results of comparing TAA-intoxicated rats treated with curcumin NPs to TAA-intoxicated rats treated with bulk curcumin revealed that the ameliorative effect of nanocurcumin was stronger. These observations concluded that nanoparticle formulation can increase curcumin bioavailability and solubility, enhancing its antioxidant and anti-inflammatory efficiency, resulting in greater potential against thioacetamide-induced hepatotoxicity in rats.

Impact of Coriandrum sativum seeds extract on albino rats' testicular toxicity caused by carbendazim

Background

A broad spectrum carbamate fungicide called carbendazim (Carb) is used to combat a number of different fungal diseases. One of the extensively utilized medicinal plants in oriental countries is Coriandrum sativum.

Aim

In the current study, the impact of C. sativum seeds extract (CSE) on albino rats' testicular toxicity caused by carbendazim was investigated.

Materials and methods

A total of 50 male albino rats were classified into 5 groups [Gp1, Control Gp; Gp2, Coriandrum Gp (CSE); Gp 3, carbendazim Gp (Carb); Gp 4, Co treated CSE with Carb (CSE + Carb); Gp 5, Post treated Carb with CSE (Carb + CSE)].

Results

Carb induced elevation in serum LH. FSH, testicular malondialdehyde (MDA), testicular nitric oxide (NO) markers and testicular injury and it reduced serum testosterone, testicular glutathione (GSH), testicular catalase and PCNA. Treatments of Carb with CSE (CSE + Carb and/or Carb + CSE) improved these parameters and reduced testicular toxicity with best results for Carb + CSE than CSE + Carb.

Conclusions

The above findings revealed that; Carb induced testicular toxicity and it supported the hypothesis that the antioxidant characteristics of one or more of CSE constituents can reduce the testicular toxicity of Carb.

The effect of ellagic acid on the metabolic syndrome: A review article

Objective

(s): Metabolic syndrome is a collection of metabolic abnormalities that includes hyperglycemia, dyslipidemia, hypertension, and obesity. Ellagic acid is found in various fruits and vegetables. It has been reported to have several pharmacological properties, such as antibacterial, antifungal, antiviral, anti-inflammatory, hepatoprotective, cardioprotective, chemopreventive, neuroprotective, gastroprotective, and antidiabetic. Our current study aims to shed light on the probable efficiency of ellagic acid in managing metabolic syndrome and its complications.

Materials and methods

To prepare the present review, the databases or search engines utilized included Scopus, PubMed, Science Direct, and Google Scholar, and relevant articles have been gathered with no time limit until March 2023.

Results

Several investigations indicated that ellagic acid could be a potent compound for the treatment of many disorders such as diabetes, hypertension, and hyperlipidemia by various mechanisms, including increasing insulin secretion, insulin receptor substrate protein 1 expression, regulating glucose transporter 4, triglyceride, total cholesterol, low-density lipoprotein (LDL), high-density lipoprotein (HDL), attenuating tumor necrosis factor-alpha (TNF-α), interleukin-6 (IL-6), reactive oxygen species (ROS), malondialdehyde (MDA), and oxidative stress in related tissues. Furthermore, ellagic acid ameliorates mitochondrial function, upregulates uncoupling protein 1 (found in brown and white adipose tissues), and regulates blood levels of nitrate/nitrite and vascular relaxations in response to acetylcholine and sodium nitroprusside.

Conclusion

Ellagic acid can treat or manage metabolic syndrome and associated complications, according to earlier studies. To validate the beneficial effects of ellagic acid on metabolic syndrome, additional preclinical and clinical research is necessary.

Fruit waste: a current perspective for the sustainable production of pharmacological, nutraceutical, and bioactive resources

Fruits are crucial components of a balanced diet and a good source of natural antioxidants, that have proven efficacy in various chronic illnesses. Various kinds of waste generated from fruit industries are considered a global concern. By utilizing this fruit waste, the international goal of "zero waste" can be achieved by sustainable utilization of these waste materials as a rich source of secondary metabolites. Moreover, to overcome this waste burden, research have focused on recovering the bioactive compounds from fruit industries and obtaining a new strategy to combat certain chronic diseases. The separation of high-value substances from fruit waste, including phytochemicals, dietary fibers, and polysaccharides which can then be used as functional ingredients for long-term health benefits. Several novel extraction technologies like ultrasound-assisted extraction (UAE), pressurized liquid extraction (PLE), and supercritical fluid extraction (SFE) could provide an alternative approach for successful extraction of the valuable bioactives from the fruit waste for their utilization as nutraceuticals, therapeutics, and value-added products. Most of these waste-derived secondary metabolites comprise polyphenols, which have been reported to have anti-inflammatory, insulin resistance-treating, cardiovascular disease-maintaining, probiotics-enhancing, or even anti-microbial and anti-viral capabilities. This review summarizes the current knowledge of fruit waste by-products in pharmacological, biological, and probiotic applications and highlights several methods for identifying efficacious bioactive compounds from fruit wastes.

Effects of polyphenols and their metabolites on age-related diseases

Aging contributes to the progressive loss of cellular biological functions and increases the risk of age-related diseases. Cardiovascular diseases, some neurological disorders and cancers are generally classified as age-related diseases that affect the lifespan of individuals. These diseases result from the accumulation of cellular damage and reduced activity of protective stress response pathways, which can lead to inflammation and oxidative stress, which play a key role in the aging process. There is now increasing interest in the therapeutic effects of edible plants for the prevention of various diseases, including those associated with aging. It has become clear that the beneficial effects of these foods are due, at least in part, to the high concentration of bioactive phenolic compounds with low side effects. Antioxidants are the most abundant, and their high consumption in the Mediterranean diet has been associated with slower ageing in humans. Extensive human dietary intervention studies strongly suggest that polyphenol supplementation protects against the development of degenerative diseases, especially in the elderly. In this review, we present data on the biological effects of plant polyphenols in the context of their relevance to human health, ageing and the prevention of age-related diseases.

Antidiabetic Actions of Ethanol Extract of Camellia sinensis Leaf Ameliorates Insulin Secretion, Inhibits the DPP-IV Enzyme, Improves Glucose Tolerance, and Increases Active GLP-1 (7-36) Levels in High-Fat-Diet-Fed Rats

Camellia sinensis (green tea) is used in traditional medicine to treat a wide range of ailments. In the present study, the insulin-releasing and glucose-lowering effects of the ethanol extract of Camellia sinensis (EECS), along with molecular mechanism/s of action, were investigated in vitro and in vivo. The insulin secretion was measured using clonal pancreatic BRIN BD11 β cells, and mouse islets. In vitro models examined the additional glucose-lowering properties of EECS, and 3T3L1 adipocytes were used to assess glucose uptake and insulin action. Non-toxic doses of EECS increased insulin secretion in a concentration-dependent manner, and this regulatory effect was similar to that of glucagon-like peptide 1 (GLP-1). The insulin release was further enhanced when combined with isobutylmethylxanthine (IBMX), tolbutamide or 30 mM KCl, but was decreased in the presence of verapamil, diazoxide and Ca²⁺ chelation. EECS also depolarized the β-cell membrane and elevated intracellular Ca²⁺, suggesting the involvement of a K_ATP-dependent pathway. Furthermore, EECS increased glucose uptake and insulin action in 3T3-L1 cells and inhibited dipeptidyl peptidase IV (DPP-IV) enzyme activity, starch digestion and protein glycation in vitro. Oral administration of EECS improved glucose tolerance and plasma insulin as well as inhibited plasma DPP-IV and increased active GLP-1 (7-36) levels in high-fat-diet-fed rats. Flavonoids and other phytochemicals present in EECS could be responsible for these effects. Further research on the mechanism of action of EECS compounds could lead to the development of cost-effective treatments for type 2 diabetes.

Evaluating the anti-arthritic potential of walnut (Juglans regia L.) in FCA induced Sprague Dawley rats

Rheumatoid arthritis (RA) is an autoimmune progressive disease, associated with many pathophysiological consequences. Owing to the adverse effects and higher costs of pharmaceuticals, people are now looking for complementary and alternative remedies. In this milieu, the present study was designed to explore the therapeutic potential of walnuts against FCA-induced arthritis in rat models. Purposely, 50 Sprague Dawley rats were housed in a well-ventilated animal room and separated into 5 groups of 10 rats each. The rats were categorized as G₀ (negative control), G₁ (positive control, i.e., FCA induced untreated arthritic rats), G₂ (arthritic rats treated with MTX), G₃ (arthritic rats treated with walnut feed), and G₄ (arthritic rats treated with walnut extract), with an efficacy trial lasting for 42 days. The physical analysis explicated that paw swelling was significantly improved by 10%-12.8% in treatment groups after the intervention when compared with positive control. Moreover, biochemical analyses revealed significantly lower levels of ESR, CRP, and RF in rats treated with walnut-based interventions when compared to positive control. ESR values were decreased by 62.4% and 69.92% in G₃ and G₄ , whereas CRP levels were improved by 56.20% and 77.78% in G₃ and G₄ when compared with G₁ . Likewise, RF values decreased in G₂ , G₃ , and G₄ by 64.71%, 55.88%, and 69.24%, respectively when compared to G₁ . The histological examination demonstrated the potential role of walnut-based interventions in reducing the severity of disease by decreasing cell infiltration, bone erosion, and paw inflammation. Meanwhile, the gene expression analysis revealed that walnut-based interventions protected the paw joints from damage by downregulating the RANKL-OPG pathway. Conclusively, walnut feed and extract may serve as potent anti-arthritic interventions with no side effects. PRACTICAL APPLICATIONS: Plant-based therapeutics are effective in the prevention and management of various chronic diseases. The current research explored the anti-arthritic potential of walnuts. Walnut feed and extract effectively reduced the serum arthritic biomarkers as well as downregulated the genes involved in bone destruction. Thus, the inclusion of dietary ingredients having therapeutic potential such as walnuts may be synchronized in clinical practices to ameliorate arthritis.