Crocin molecular signaling pathways at a glance: A comprehensive review

Monitoring cellular human breast adenocarcinoma cells' response to xanthophylls by label-free Raman spectroscopy and imaging

For years, xanthophylls have been recognized for their potential in medicine. Evidence supports the role of diets rich in algae, fruits, and vegetables in preventing cancer. Due to the complexity of the human body, numerous mechanisms could explain the health benefits of xanthophylls. Various studies have explored their effects on specific diseases. However, the impact of certain xanthophylls, such as crocetin, crocin, and fucoxanthin, on aggressive breast cancer remains unclear. To address this, we examined their effects on human breast adenocarcinoma (MDA-MB-231 cells) using Raman spectroscopy and imaging. Our findings revealed that crocetin enhances cancer cell viability by increasing lipid and protein levels, suggesting it does not directly inhibit tumour growth. Crocin redirected cellular metabolism towards lipid accumulation, shown by increased Raman signals at 1444 cm-1 in lipid droplets/endoplasmic reticulum. Fucoxanthin demonstrated the greatest potential, reducing lipid and protein levels (Raman bands at 1254, 1444, 1654 cm-1), thereby inhibiting adenocarcinoma progression.

RGD peptide-functionalized micelles loaded with crocetin ameliorate doxorubicin-induced cardiotoxicity

Doxorubicin (Dox)-induced cardiotoxicity presents a significant challenge to fully harnessing its chemotherapeutic potential. Crocetin (Cro), a dicarboxylic acid found in the crocus flower and gardenia fruit, has shown remarkable antioxidant and anti-inflammatory activities. However, its poor aqueous solubility and limited cellular uptake severely constrain its further application in treating diseases. In this study, we developed Arg-Gly-Asp (RGD) peptide-decorated nanomicelles delivering Cro to alleviate Dox-induced cardiac injury. The RGD@M(Cro) nanomicelles exhibited excellent aqueous solubility and a drug-loading efficiency of 93.3 %. RGD-decorated micelles could enhance the cellular uptake of Cro in cardiomyocytes and inhibit approximately 60 % of HL-1 cell apoptosis through efficient reactive oxygen species (ROS) scavenging. In a cardiomyopathy mouse model, RGD@M(Cro) substantially reduced cardiac damage and improved cardiac indicators. This study highlights the great potential of RGD-decorated micelles in treating cardiac injury and other diseases.

The effects of saffron supplementation on inflammation and hematological parameters in patients with sepsis: a randomized controlled trial

BACKGROUND

Critically ill patients suffering from sepsis are at an increased risk of morbidity and mortality due to its serious complications. Saffron as an herbal medicine has been proven to have anti-inflammatory and anti-oxidative stress effects previously. Hence, this study aimed to determine how saffron supplementation affected inflammatory and hematological factors in patients admitted to the intensive care unit (ICU) with sepsis.

METHODS

In this double-blind clinical trial, 90 ICU sepsis patients with GCS lower than 13 were randomized to receive either an intervention tablet containing 100 mg of saffron or a placebo tablet containing 100 mg of corn starch for seven days. Before and after the intervention, clinical, inflammatory, hematological, and mortality parameters were assessed.

RESULTS

After seven days, the saffron group showed a significantly decline from baseline compared to the placebo group in inflammatory markers, including CRP (-24.58 ± 22.16 vs. -2.42 ± 30.86; P < 0.001), ESR (-5.36 ± 28.75 vs. 24.29 ± 28.24; P < 0.001), IL-6 (-22.09 ± 25.22 vs. -4.02 ± 20.04; P < 0.001), IL-18 (-9.56 ± 9.31 vs. -0.89 ± 3.38; P < 0.001), and TNF-α (-2.52 ± 3.79 vs. -0.035 ± 2.35; P < 0.001). Regarding clinical outcomes, significant improvements were observed in APACHE II (-2.55 ± 5.47 vs. 0.78 ± 3.37; P = 0.003), SOFA (-1 ± 1.07 vs. -0.05 ± 1.53; P < 0.001), NUTRIC score (-1.2 ± 1.01 vs. 0.2 ± 0.87; P < 0.001), and WBC count (-4176.34 ± 4063.01 vs. 61.57 ± 4118.97; P < 0.001). Moreover, the effect sizes (Cohen's d) for these factors ranged from moderate to large, except for IL-6, which had a small effect size (d = -0.38). However, no significant differences were found between the groups in the Glasgow Coma Scale, FOUR Score, 28-day and 90-day mortality rates, or other hematological parameters (P > 0.05).

CONCLUSIONS

Saffron administration in sepsis patients admitted to the ICU led to significant improvements in inflammatory markers and some clinical parameters. However, the clinical significance of these findings remains to be fully established.

TRIAL REGISTRATION

Iranian Registry of Clinical Trials: IRCT20201129049534N8. It was registered on 17 March 2024.

Molecular and Behavioral Neuroprotective Effects of Clavulanic Acid and Crocin in Haloperidol-Induced Tardive Dyskinesia in Rats

Clavulanic acid (ClvA), a beta-lactamase inhibitor, is being explored for its significant neuroprotective potential. The effects of ClvA were assessed both individually and in combination with crocin (Cr), an antioxidant derived from saffron, in the context of tardive dyskinesia (TD). In rat haloperidol (Hp)-induced-TD (1 mg/kg, i.p. 21 days), the effects of ClvA (50, 100, 150 mg/kg) and Cr (10, 20, 40 mg/kg) were assessed via vacuous chewing movements (VCM) and tongue protrusion (TP). Striatal malondialdehyde (MDA) and glutathione (GSH) were measured spectrophotometrically. Based on the results, ClvA (100 mg/kg) and Cr (10 mg/kg) were determined with sub-effective doses. Glutamate transporter-subtype1 (GLT1), dopamine active transporter (DAT), vesicular monoamine transporter-type2 (VMAT2), Bax/Bcl2, cleaved Caspase3, phosphorylated AKT/AKT, IL1β, and TNFα levels were quantified using western blotting in sub-effective doses and their combination. The behavioral results of catalepsy and orofacial dyskinesia demonstrated model establishment. Hp decreased GLT1 (p < 0.05), DAT (p < 0.01), VMAT2 (p < 0.001), GSH and pAKT/AKT (p < 0.0001); increased TNFα (p < 0.05), IL1β, cleaved Caspase3 (p < 0.001); MDA and Bax/Bcl2 (p < 0.0001). ClvA 100 mg/kg reversed the decreased GLT1 and VMAT2 (p < 0.01), alongside the increased MDA (p < 0.0001) and VCM (p < 0.05). It also increased AKT phosphorylation (p < 0.05). No effects were noted on DAT, GSH, Bax/Bcl2, or inflammatory factors. However, the combination with Cr at 10 mg/kg influenced ClvA on DAT (p < 0.01) and resulted in a significant increase in GSH (p < 0.0001). Additionally, there was a marked decrease in TNFα (p < 0.0001) and IL1β (p < 0.001), enhancing its effects on reducing MDA and increasing pAKT/AKT (p < 0.0001). The combination adversely affected GLT1. ClvA protects against TD via GLT1 and VMAT2; combined with Cr, it enhances antioxidant effects, improves DAT, and requires dose optimization for GLT1 disruption.

A novel integrative multimodal classifier to enhance the diagnosis of Parkinson's disease

Parkinson's disease (PD) is a complex, progressive neurodegenerative disorder with high heterogeneity, making early diagnosis difficult. Early detection and intervention are crucial for slowing PD progression. Understanding PD's diverse pathways and mechanisms is key to advancing knowledge. Recent advances in noninvasive imaging and multi-omics technologies have provided valuable insights into PD's underlying causes and biological processes. However, integrating these diverse data sources remains challenging, especially when deriving meaningful low-level features that can serve as diagnostic indicators. This study developed and validated a novel integrative, multimodal predictive model for detecting PD based on features derived from multimodal data, including hematological information, proteomics, RNA sequencing, metabolomics, and dopamine transporter scan imaging, sourced from the Parkinson's Progression Markers Initiative. Several model architectures were investigated and evaluated, including support vector machine, eXtreme Gradient Boosting, fully connected neural networks with concatenation and joint modeling (FCNN_C and FCNN_JM), and a multimodal encoder-based model with multi-head cross-attention (MMT_CA). The MMT_CA model demonstrated superior predictive performance, achieving a balanced classification accuracy of 97.7%, thus highlighting its ability to capture and leverage cross-modality inter-dependencies to aid predictive analytics. Furthermore, feature importance analysis using SHapley Additive exPlanations not only identified crucial diagnostic biomarkers to inform the predictive models in this study but also holds potential for future research aimed at integrated functional analyses of PD from a multi-omics perspective, ultimately revealing targets required for precision medicine approaches to aid treatment of PD aimed at slowing down its progression.

Signaling pathways behind the biological effects of tanshinone IIA for the prevention of cancer and cardiovascular diseases

Tanshinone IIA (Tan IIA) is a well-known fat-soluble diterpenoid found in Salvia miltiorrhiza, recognized for its various biological effects. The molecular signaling pathways of Tan IIA have been investigated in different diseases, including the anti-inflammatory, hepatoprotective, renoprotective, neuroprotective effects, and fibrosis prevention. This article provides a brief overview of the signaling pathways related to anti-cancer and cardioprotective effects of Tan IIA. It shows that Tan IIAs anti-cancer ability has good expectation through multiplicity mechanisms affecting various aspects' tumor biology. The major pathways involved in its anti-cancer effects include inhibition of PI3/Akt, MAPK, and p53/p21 signaling which leads to enhancement of immune responses and increased radiation sensitivity. Some essential pathways responsible for cardioprotective effects induced by Tan IIA are PI3/AKT activation, MAPK, and SIRT1 promoting protection against ischemia/reperfusion injury in myocardial cells as well as inhibiting pathological remodeling processes. Finally, the article underscores the complex and specific signaling pathways influenced by Tan IIA. The PI3/Akt and MAPK pathways play critical roles in the anti-cancer and cardioprotective effects of Tan IIA. Particularly, Tan IIA suppresses the proliferation of malignancies in cancerous cells but stimulates protective mechanisms in normal cardiovascular cells. These findings highlight the importance of investigating molecular signaling pathways in evaluating the therapeutic potential of natural products. Studying about signaling pathways is vital in understanding the therapeutic aspects of Tan IIA and its derivatives as anti-cancer and cardio-protective agents. Further research is necessary to understand these complex mechanisms.

Therapeutic Effects of Crocin Nanoparticles Alone or in Combination with Doxorubicin against Hepatocellular Carcinoma In vitro

OBJECTIVE

Crocin (CRO), the primary antioxidant in saffron, is known for its anticancer properties. However, its effectiveness in topical therapy is limited due to low bioavailability, poor absorption, and low physicochemical stability. This study aimed to prepare crocin nanoparticles (CRO-NPs) to enhance their pharmaceutical efficacy and evaluate the synergistic effects of Cro-NPs with doxorubicin (DOX) chemotherapy on two cell lines: human hepatocellular carcinoma cells (HepG2) and non-cancerous cells (WI38).

METHODS

CRO-NPs were prepared using the emulsion diffusion technique and characterized by transmission electron microscopy (TEM), scanning electron microscopy (SEM), Zeta potential, and Fourier transform infrared spectroscopy (FT-IR). Cell proliferation inhibition was assessed using the MTT assay for DOX, CRO, CRO-NPs, and DOX+CRO-NPs. Apoptosis and cell cycle were evaluated by flow cytometry, and changes in the expression of apoptotic gene (P53) and autophagic genes (ATG5 & LC3) were analyzed using real-time polymerase chain reaction.

RESULTS

TEM and SEM revealed that CRO-NPs exhibited a relatively spherical shape with an average size of 9.3 nm, and zeta potential analysis indicated better stability of CRO-NPs compared to native CRO. Significantly higher antitumor effects of CRO-NPs were observed against HepG2 cells (IC50 = 1.1 mg/ml and 0.57 mg/ml) compared to native CRO (IC50 = 6.1 mg/ml and 3.2 mg/ml) after 24 and 48 hours, respectively. Annexin-V assay on HepG2 cells indicated increased apoptotic rates across all treatments, with the highest percentage observed in CRO-NPs, accompanied by cell cycle arrest at the G2/M phase. Furthermore, gene expression analysis showed upregulation of P53, ATG5, and LC3 genes in DOX/CRO-NPs co-treatment compared to individual treatments. In contrast, WI38 cells exhibited greater sensitivity to DOX toxicity but showed no adverse response to CRONPs.

CONCLUSION

Although more in vivo studies in animal models are required to corroborate these results, our findings suggest that CRO-NPs can be a potential new anticancer agent for hepatocellular carcinoma. Moreover, they have a synergistic effect with DOX against HepG2 cells and mitigate the toxicity of DOX on normal WI38 cells.

Rare crocins ameliorate thrombus in zebrafish larvae by regulating lipid accumulation and clotting factors

Crocin-4 is a water-soluble carotenoid that exhibits cardiovascular protection effects through anti-inflammatory and antioxidant effects. However, the pharmacodynamic effects and mechanisms of its analogues crocin-1 and crocin-2' have not been reported. In this study, we evaluated the protective effects of rare crocins on cardiovascular systems. In ox-LDL induced HUVECs model, 0.02, 0.1, 0.5, 1, 2, 3, 4, 5, 6 μg/mL crocin-1 and crocin-2' can increase cell viability by up to 80 %. Meanwhile, rare crocins at concentrations between 25-100 μg/mL crocin-1 and crocin-2' reduced the lipid accumulation by 30 % in cholesterol-induced zebrafish larvae. What's more, the therapeutic potential of rare crocins on thrombosis has also been explored. In vitro experiments, rare crocin-1 and crocin-2' at concentrations of 0.02, 0.05, 0.2, 0.5, 1, 2, 5, 10 μg/mL protected Human Umbilical Vein Endothelial Cells (HUVECs) against lipopolysaccharides-induced oxidative stress and inflammation. In vivo studies revealed that rare crocins at concentrations of 25, 50, 100, 150, 200, and 300 μg/mL exerted significant antithrombotic effect on arachidonic acid (AA)-induced zebrafish and there was nearly no potential risk for the deformity of zebrafish at 300 μg/mL dosages. In brief, rare crocins was viewed as a potentially useful candidate for the treatment of cardiovascular diseases because of its anti-inflammatory, antioxidant, and anticoagulant properties.

Construction of a high-efficiency GjCCD4a mutant and its application for de novo biosynthesis of five crocins in Escherichia coli

Crocins are bioactive natural products that rarely exist in plants. High costs and resource shortage severely limit its development and application. Synthetic biology studies on crocins are of considerable global interest. However, the lack of high-efficiency genetic tools and complex cascade biocatalytic systems have substantially hindered progress in crocin biosynthesis-related research. Based on mutagenesis, a high-efficiency GjCCD4a mutant (N212m) was constructed with a catalytic efficiency that was 25.08-fold higher than that of the wild-type. Solubilized GjCCD4a was expressed via fusion with an MBP tag. Moreover, N212m and ten other genes were introduced into Escherichia coli for the de novo biosynthesis of five crocins. The engineered E57 strain produced crocins III and V with a total yield of 11.50 mg/L, and the E579 strain produced crocins I-V with a total output of 8.43 mg/L at shake-flask level. This study identified a marvelous genetic element (N212m) for crocin biosynthesis and achieved its de novo biosynthesis in E. coli using glucose. This study provides a reference for the large-scale production of five crocins using E. coli cell factories.

Potential therapeutic effects of crocin

Crocin, a natural bioactive compound derived from saffron (Crocus sativus) and other Crocus genera, has gained significant attention recently due to its potential therapeutic properties. The multifaceted nature of crocin's biological effects has piqued the interest of researchers and health enthusiasts, prompting further investigations into its mechanisms of action and therapeutic applications. This review article comprehensively explores the emerging evidence supporting crocin's role as a promising ally in protecting against metabolic disorders. The review covers the molecular mechanisms underlying crocin's beneficial effects and highlights its potential applications in preventing and treating diverse pathological conditions. Understanding the mechanisms through which crocin exerts its protective effects could advance scientific knowledge and offer potential avenues for developing novel therapeutic interventions. As we uncover the potential of crocin as a valuable ally in the fight against disorders, it becomes evident that nature's palette holds remarkable solutions for enhancing our health.

Crocin Protects the 661W Murine Photoreceptor Cell Line against the Toxic Effects of All-Trans-Retinal

Age-related macular degeneration (AMD) is a common disease contributing to vision loss in the elderly. All-trans-retinal (atRAL) is a retinoid in the retina, and its abnormal accumulation exhibits toxicity to the retina and promotes oxidative stress-induced photoreceptor degeneration, which plays a crucial role in AMD progression. Crocin is a natural product extracted from saffron, which displays significant antioxidant and anti-inflammatory effects. The present study elucidates the protective effects of crocin on photoreceptor cell damage by atRAL and its potential mechanisms. The results revealed that crocin significantly attenuated cytotoxicity by repressing oxidative stress, mitochondrial injury, and DNA damage in atRAL-loaded photoreceptor cells. Moreover, crocin visibly inhibited DNA damage-induced apoptosis and gasdermin E (GSDME)-mediated pyroptosis in photoreceptor cells after exposure to atRAL. It was also observed that crocin distinctly prevented an increase in Fe2+ levels and lipid peroxidation caused by atRAL via suppressing the Kelch-like ECH-associated protein 1 (KEAP1)/nuclear factor-erythroid 2-related factor 2 (NRF2)/heme oxygenase-1 (HO-1) signaling pathway, thereby ameliorating photoreceptor cell ferroptosis. In short, these findings provide new insights that crocin mitigates atRAL-induced toxicity to photoreceptor cells by inhibiting oxidative stress, apoptosis, pyroptosis, and ferroptosis.

The therapeutic potential of traditional Chinese medicine in depression: focused on the modulation of neuroplasticity

Depression, a mood disorder characterized by a persistent low mood and lack of enjoyment, is considered the leading cause of non-fatal health losses worldwide. Neuroplasticity refers to the brain's ability to adapt to external or internal stimuli, resulting in functional and structural changes. This process plays a crucial role in the development of depression. Traditional Chinese Medicine (TCM) shows significant potential as a complementary and alternative therapy for neurological diseases, including depression. However, there has been no systematic summary of the role of neuroplasticity in the pathological development of depression and TCM Interventions currently. This review systematically summarized recent literature on changes in neuroplasticity in depression and analyzed the regulatory mechanisms of active metabolites in TCM and TCM formulas on neuroplasticity in antidepressant treatment. Additionally, this review discussed the limitations of current research and the application prospects of TCM in regulating neuroplasticity in antidepressant research.

Oral supplementation with crocin (a constituent of saffron) in subjects with cigarette smoking: a clinical trial

Smoking is one of the main causes of death in the world. Cigarette use is related with various components of metabolic syndrome (e.g., insulin resistance, raised blood pressure, dyslipidemia, oxidative stress, inflammation state) and psychiatric disorders. This study was conducted to determine the effect of crocin (Cro) supplementation on nicotine dependence, anxiety, depression, and metabolic indices in smokers. A total of 50 smokers were selected and randomly categorized into two groups (crocin and placebo). The intervention group received crocin (30 mg per day; n = 25) and placebo (containing Avicel; n = 25) once a day. The primary (nicotine dependence, depression, and anxiety inventory) and secondary (metabolic indices) outcomes were assessed at the start of the intervention and after the 3 months. Multiple linear regression models were used to assess the treatment effects on the outcomes adjusting for confounding variables. The primary outcome results such as nicotine dependence, depression, and anxiety inventory did not have a significant difference among the intervention groups (P > 0.05). Also in the secondary outcomes, fasting plasma glucose (FPG), insulin, and homeostasis model of assessment-insulin resistance (HOMA-IR) levels did indicate a significant difference by Cro intervention (β - 3.27 mg/dL; 95% CI, - 5.23, - 1.31; P = 0.002; β - 0.76 μIU/mL; 95% CI, - 1.38, - 0.15; P = 0.01; β - 0.18; 95% CI, - 0.29, - 0.07; P = 0.002), respectively. There were also significant reductions in serum levels of high-sensitivity C-reactive protein (hs-CRP) (β - 0.72 mg/L; 95% CI, - 1.37, - 0.07; P = 0.03), compared with the placebo. Cro intake may have favorable effects on the level of FPG, insulin, HOMA-IR, and hs-CRP in smokers. However, due to the small sample size and limited scientific reports on smokers, further studies are necessary. ClinicalTrial.gov Identifier: IRCT20170420033551N11.

Protective effect of crocin on peroxidation-induced oxidative stress and apoptosis in IPEC-J2 cells

The antioxidant properties of crocin are attracting interest, yet the underlying mechanisms by which crocin mitigates oxidative stress-induced intestinal damage have not been determined. This study aimed to elucidate the effects of crocin on oxidative stress, apoptosis, and intestinal epithelial injury in intestinal epithelial cells (IPEC-J2). Using an H2O2-induced oxidative stress model in IPEC-J2 cells, crocin was added to assess its effects. Cell viability and apoptosis were evaluated using methyl thiazolyl tetrazolium assays and flow cytometry. Additionally, oxidative stress markers, such as superoxide dismutase (SOD), catalase (CAT), reactive oxygen species (ROS), and malondialdehyde (MDA), were quantified. We investigated, in which cell oxidation and apoptosis were measured at the gene and protein levels and employed transcriptome analysis to probe the mechanism of action and validate relevant pathways. The results showed that crocin ameliorates H2O2-induced oxidative stress by reducing ROS and MDA levels and by countering the reductions in CAT, total antioxidant capacity, and SOD. Crocin also attenuates the upregulation of key targets in the Nrf2 pathway. Furthermore, it effectively mitigated IPEC-J2 cell apoptosis caused by oxidative stress, as evidenced by changes in cell cycle factor expression, apoptosis rate, mitochondrial membrane potential, and apoptosis pathway activity. In addition, crocin preserves the integrity of the intestinal barrier by protecting tight junction proteins against oxidative stress. Transcriptome sequencing analysis suggested that the mitochondrial pathway may be a crucial mechanism through which crocin exerts its protective effects. In summary, crocin decreases oxidative stress molecule formation, inhibits Nrf2 pathway activity, prevents apoptosis-induced damage, enhances oxidative stress resistance in IPEC-J2 cells, and maintains redox balance in the pig intestine.

Crocus genome reveals the evolutionary origin of crocin biosynthesis

Crocus sativus (saffron) is a globally autumn-flowering plant, and its stigmas are the most expensive spice and valuable herb medicine. Crocus specialized metabolites, crocins, are biosynthesized in distant species, Gardenia (eudicot) and Crocus (monocot), and the evolution of crocin biosynthesis remains poorly understood. With the chromosome-level Crocus genome assembly, we revealed that two rounds of lineage-specific whole genome triplication occurred, contributing important roles in the production of carotenoids and apocarotenoids. According to the kingdom-wide identification, phylogenetic analysis, and functional assays of carotenoid cleavage dioxygenases (CCDs), we deduced that the duplication, site positive selection, and neofunctionalization of Crocus-specific CCD2 from CCD1 members are responsible for the crocin biosynthesis. In addition, site mutation of CsCCD2 revealed the key amino acids, including I143, L146, R161, E181, T259, and S292 related to the catalytic activity of zeaxanthin cleavage. Our study provides important insights into the origin and evolution of plant specialized metabolites, which are derived by duplication events of biosynthetic genes.

Phytochemicals as treatment for allergic asthma: Therapeutic effects and mechanisms of action

BACKGROUND

Allergic asthma is an inflammatory disease caused by the immune system's reaction to allergens, inflammation and narrowing of the airways, and the production of more than normal mucus. One of the main reasons is an increased production of inflammatory cytokines in the lungs that leads to the appearance of symptoms of asthma, including inflammation and shortness of breath. On the other hand, it has been proven that phytochemicals with their antioxidant and anti-inflammatory properties can be useful in improving allergic asthma.

PURPOSE

Common chemical treatments for allergic asthma include corticosteroids, which have many side effects and temporarily relieve symptoms but are not a cure. Therefore, taking the help of natural compounds to improve the quality of life of asthmatic patients can be a valuable issue that has been evaluated in the present review.

STUDY DESIGN AND METHODS

In this study, three databases (Scopus, PubMed, and Cochrane) with the keywords: allergic asthma, phytochemical, plant, and herb were evaluated. The primary result was 5307 articles. Non-English, repetitive, and review articles were deleted from the study.

RESULTS AND DISCUSSION

Finally, after carefully reading the articles, 102 were included in the study (2006-2022). The results of this review state that phytochemicals suppress the inflammatory pathways via inhibition of inflammatory cytokines production/secretion, genes, and proteins involved in the inflammation process, reducing oxidative stress indicators and symptoms of allergic asthma, such as cough and mucus production in the lungs.

CONCLUSION

With their antioxidant effects, this study concluded that phytochemicals suppress cytokines and other inflammatory indicators and thus can be considered an adjunctive treatment for improving allergic asthma.

Mechanism of Antitumor Effects of Saffron in Human Prostate Cancer Cells

Prostate cancer is the most common cancer and the second leading cause of cancer deaths among men in the USA. Several studies have demonstrated the antitumor properties of saffron in different types of cancers, including prostate cancer. The oral administration of saffron extract has been reported to have antitumor effects on aggressive prostate-cancer-cell-line-derived xenografts in nude male mice. The objective of this study was to carry out in vitro studies of saffron-treated prostate cancer cells to ascertain the effects of saffron on key intermediates in prostate carcinogenesis. Our studies demonstrated the significant inhibition of cell proliferation for androgen-sensitive prostate cancer cell lines via apoptotic pathways. We also demonstrate the statistically significant down-regulation of DNA methyltransferases (COMT, MGMT, EHMT2, and SIRT1 deacetylase) in saffron-treated prostate cancer cells. In addition, saffron-treated prostate cancer cells displayed a statistically significant dysregulation of DNA repair intermediates (WRN, p53, RECQ5, MST1R, and WDR70) in a time-dependent manner. Furthermore, Western blot analysis demonstrated that saffron treatment induced changes in the expression of other key genes (DNMT1, DNMT3b, MBD2, CD44, HDAC3, c-Myc, NF-kB, TNFα, AR, N-RAS, and PTEN) in prostate cancer cells. Collectively, our findings demonstrate the important mechanisms by which saffron mediates anti-tumor properties in prostate cancer. These findings suggest that the use of saffron supplements alongside standard treatment protocols may yield beneficial effects for individuals with prostate cancer.

Effects of Supplementation with the Standardized Extract of Saffron (affron®) on the Kynurenine Pathway and Melatonin Synthesis in Rats

Melatonin is a hormone that regulates sleep-wake cycles and is mainly synthesized in the pineal gland from tryptophan after its conversion into serotonin. Under normal conditions, less than 5% of tryptophan is reserved for the synthesis of serotonin and melatonin. The remaining 95% is metabolized in the liver through the kynurenine pathway. Increased levels of proinflammatory cytokines and cortisol increase the metabolism of tryptophan through the kynurenine pathway and reduce its availability for the synthesis of melatonin and serotonin, which may cause alterations in mood and sleep. The standardized saffron extract (affron®) has shown beneficial effects on mood and sleep disorders in humans, but the underlying mechanisms are not well understood. Thus, the aim of this work was to study the effects of affron® supplementation on the kynurenine pathway and the synthesis of melatonin in rats. For this purpose, adult male Wistar rats were supplemented for 7 days with 150 mg/kg of affron® or vehicle (2 mL/kg water) administered by gavage one hour before sleep. Affron® supplementation reduced body weight gain and increased the circulating levels of melatonin, testosterone, and c-HDL. Moreover, animals supplemented with affron® showed decreased serum levels of kynurenine, ET-1, and c-LDL. In the pineal gland, affron® reduced Il-6 expression and increased the expression of Aanat, the key enzyme for melatonin synthesis. In the liver, affron® administration decreased the mRNA levels of the enzymes of the kynurenine pathway Ido-2, Tod-2, and Aadat, as well as the gene expression of Il-1β and Tnf-α. Finally, rats treated with affron® showed increased mRNA levels of the antioxidant enzymes Ho-1, Sod-1, Gsr, and Gpx-3, both in the liver and in the pineal gland. In conclusion, affron® supplementation reduces kynurenine levels and promotes melatonin synthesis in rats, possibly through its antioxidant and anti-inflammatory effects, making this extract a possible alternative for the treatment and/or prevention of mood and sleep disorders.

Investigation on the potential adverse outcome pathway of the sensitive endpoint for nephrotoxicity induced by gardenia yellow based on an integrated strategy using bioinformatics analysis and in vitro testing validation

To explore the potential the adverse outcome pathway of Gardenia Yellow (GY)-induced sensitive endpoint for nephrotoxicity, an integrated strategy was applied in the present study. Using bioinformatic analysis, based on the constructed Protein-protein interaction networks, Gene Ontology function and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis on the core target network were performed to illustrate the potential gene targets and signal pathways. Then, the most enriched pathway was validated with Cell counting kit-8 assays and Western blot analysis in embryonic kidney epithelial 293 cell models. According to the findings, GY may interact with 321 targets related to the endpoint. The five targets on the top ranking in the PPI network were STAT3, SRC, HRAS, AKT1, EP300. Among them, PI3K/Akt was the most enriched pathway. In vitro testing showed that GY exerted a proliferative effect on the cell variability in a dose-dependent manner. GY at concentration of 1000 μg/ml and stimulation for 30 min can significantly enhance the expression of phosphorylated Akt. Thus, after the quantitative weight of evidence evaluation, Akt phosphorylation induced PI3K/Akt activation was speculated as a molecular initiating event leading to a proliferative and inflammatory response in renal tubular epithelial cells.

A review of the use of antioxidants in bovine sperm preparation protocols

Reactive oxygen species (ROS) and oxidative stress (OS), the imbalance between the production of free radicals and the cellular antioxidant defenses, are discussed in relation to their role in bovine sperm physiology. Oxidative stress has been associated to male infertility and low fertility rates in Assisted Reproductive Techniques (ART). Antioxidant supplementation is an interesting approach to overcome OS-related infertility and assisted reproduction drawbacks. Several studies have been conducted to identify the potential sources of ROS in a typical ART setting and the impact of antioxidant supplementation on semen quality and pregnancy outcome. Procedures such as freezing and thawing, centrifugation and incubation are thought to produce significant amounts of ROS with a negative impact on sperm quality parameters and reproductive competence. Given the important role of ROS in sperm function, the addition of antioxidants in sperm media to prevent OS and to improve the reproductive outcome requires attention. Currently, there is limited evidence to support the ameliorative effect of antioxidant supplementation on fertilization and embryo development in farm animals. This review summarizes the different types and concentrations of antioxidants used in sperm preparation media of bovine species and their effectiveness in neutralizing excessive ROS production while preserving physiological sperm function.

Therapeutic implications of crocin in Parkinson's disease: A review of preclinical research

Parkinson's disease is among the most common forms of neurodegenerative illness, with present treatment being primarily symptomatic and frequently coming with substantial adverse effects. Neuronal degeneration may arise due to a variety of pathological events, like inflammatory responses, neurotransmitter dysregulation, oxidative damage, mitochondrial malfunction, apoptosis, and genetic factors. The health issue and financial burden brought on by Parkinson's disease can worsen as the population ages. In the search for new and secure therapeutic agents for Parkinson's disease, several natural compounds have been shown to exert considerable neuroprotective benefits. Crocin, a naturally occurring carotenoid molecule, was found to have neuroprotective potential in the therapy of this disorder. Taking into account, the outcomes of various studies and the restorative actions of crocin, the present study emphasized the protective ability of crocin in this disease. Given the strong evidence supporting the neuroprotective ability of crocin, it is inferred that crocin inhibits inflammatory, apoptotic, and antioxidant processes through multiple mechanisms. Therefore, this compound is considered a safe and effective therapeutic choice for neurodegenerative illnesses like Parkinson's disease. However, more research on its efficacy as a treatment of Parkinson's disease is needed, specifically examining its mechanisms and the results obtained in clinical trials.