Effects of Berberis asiatica, Withania somnifera, and Their Combination on Body Weight in Streptozotocin-Nicotinamide-Induced Type 2 Diabetes in Wistar Rats.

Introduction Type 2 diabetes mellitus (T2DM) is characterized by insulin resistance, impaired insulin secretion, and beta cell dysfunction, often leading to chronic hyperglycemia and associated complications. Berberis asiatica (BA) and Withania somnifera (WS) are ancient medicinal plants with a reputation for having potential therapeutic effects in diabetes management. The purpose of this study was to look into how body weight (BW) was affected in streptozotocin-nicotinamide (STZ-NIC) induced T2DM in Wistar rats by BA, WS, and their polyherbal combination (PHC). Materials and methods Seventy-eight Wistar rats of both sexes were divided into 13 groups, with six rats in each group, including normal and diabetic controls, and treated with varying doses of BA, WS, and PHC. The rats were under observation over the course of 35 days for any change in BW. The Organization for Economic Co-operation and Development (OECD) rules and guidelines were followed in the conduct of acute toxicity tests. One-way analysis of variance (ANOVA), followed by Tukey-Kramer post hoc tests, was used for statistical analysis. Results The findings indicated that the highest dose of BA (1000 mg/kg) significantly improved BW in diabetic rats, approaching that of the normal control group. The combination of BA and WS also demonstrated significant improvements in BW, suggesting a synergistic effect. The standard antidiabetic drugs, metformin and glimepiride, were effective in increasing BW in diabetic rats. Conclusion The study concludes that BA, WS, and their combination have a positive impact on BW management in T2DM rats, with the combination therapy showing enhanced effects. These findings support the potential utilization of these herbs in managing BW and other T2DM-associated metabolic disturbances and abnormalities.

Evaluation of Withania somnifera based supplement for immunomodulatory and antiviral properties against viral infection.

BACKGROUND: Viral mediated diseases are continuously posing potent threat to human health. Nutraceuticals are being employed as novel therapeutics during viral outbreaks. MAM granules consist of Curcuma longa, Withania somnifera, and Piper nigrum, is one such patented Siddha nutraceutical supplement that has been proposed to be a therapeutic agent against viral diseases. OBJECTIVE: We characterised MAM for their phytochemical and physicochemical properties and evaluated its cytotoxicity via in vivo acute toxicity studies using Wistar rats and by cell-based MTT assays. MATERIALS AND METHODS: The antiviral properties of the aqueous extract of MAM were investigated against SARS-CoV-2 and chikungunya virus (CHIKV). Further, using ABTS radical scavenging, SOD enzymatic assays and measurement of intracellular ROS, we investigated the antioxidant potential of MAM extract and its ingredients in RAW264.7 cells. Additionally, production of inflammatory mediators was evaluated via NO release, PGE2 production and release of pro-inflammatory cytokines (IL-1ß and TNFα). RESULTS: The MAM granules and aqueous extracts demonstrated no significant toxicity and demonstrated potent antiviral activity during co-incubation assay with SARS-CoV-2 and CHIKV. Moreover, we observed potent antioxidant and anti-inflammatory activity of MAM extract in a dose dependent manner. Further investigations on the individual ingredients with respect to their antioxidant and anti-inflammatory activities showed that all ingredients contributed synergistically and Withania somnifera showed most potent anti-oxidant activity. CONCLUSION: The overall in vitro, and in vivo analysis demonstrated that MAM granules were non-toxic and possessed potent antiviral activity. Additionally, observed significant anti-oxidant and anti-inflammatory properties of MAM suggested the modulation of innate immune response in the host validating its use as an effective nutraceutical during viral outbreaks.

Acute and sub-chronic oral GLP toxicity of Withania somnifera root extract in Sprague Dawley rats.

OBJECTIVES: Withania somnifera (WS) is a valuable medicinal plant that has been used against several ailments. The medicinal properties of WS are ascribed to existence of secondary metabolites which are in great demand in herbal nutraceutical industry. Despite well-known therapeutic effects of WS, it is necessary to assess preclinical toxicity of WS plant on rats and further explore its potential application against treatment of various disorders in humans. The existing study assessed oral acute and sub-chronic toxicities of WS root extract in Sprague Dawley (SD) rats (male and female) for 14 and 90 days, respectively under OECD-423 and -408 guidelines as well as GLP compliance. METHODS: In acute toxicity, rats of either sex were orally fed a dose of 2,000 mg/kg. In sub-chronic toxicity, animals were orally administered repeated doses of WS root extract at 250, 500, 1,000 mg/kg for 90 days with an additional 14-day recovery period. Two more groups (n=5 animals each) receiving vehicle and 1,000 mg/kg of WS root extract for 90 days were also observed. RESULTS: In acute toxicity, the results revealed that LD50 of WS root extract in SD rats was higher than 2,000 mg/kg. In sub-chronic toxicity, oral administration of extract for 90 days showed no significant toxicological changes in rats. Haematological and serum chemistry markers were found within normal range. Terminal necropsy showed no gross or histopathological outcomes. CONCLUSIONS: The no-observed-adverse-effect level (NOAEL) of WS root extract was 1,000 mg/kg body weight, and safe to use at this dose in rats.

In silico evaluations of phytochemicals from Withania somnifera exhibiting anticancer activity against NAD[P]H-quinone oxidoreductase.

BACKGROUND: Cancer is a leading cause of death globally and in the US, prompting research into medicinal plants with anticancer properties. Withania somnifera, or Ashwagandha, is one such plants, known for its diverse pharmacological effects. Withaferin A and Viscosalactone B are two compounds found in Ashwagandha with known anticancer activity. The protein NQO1, overexpressed in various cancers, was the focus of this study. HYPOTHESIS AND AIM: We hypothesize that specific phytochemicals in Withania somnifera can effectively interact with and inhibit the NQO1 protein, thereby exhibiting anticancer properties. This study aims to identify these interactions using in silico approaches. METHODOLOGY: CFDT was performed using the Gaussian 16 program package, followed by QSAR analysis of the compounds in the PASS online web server. The Schrodinger suite was used to carry out ligand and protein preparation, molecular docking, and molecular dynamic simulation to analyse the interaction of these compounds with NQO1 and ADME studies. Protox-II and SWISSADME tools were used to predict the toxicity and blood-brain barrier permeability of the phytochemicals. RESULTS AND CONCLUSION: CDFT and frontier molecular orbital analyses predicted the stability and reactivity of all the selected molecules. QSAR analysis predicted the biological activity and toxicity of the compounds. Withaferin A exhibited the highest glide gscore (-4.953 kcal/mol) and demonstrated 6 hydrogen bond interactions with NQO1, suggesting its potential as an anticancer agent. Conceptual density functional theory-based analysis suggested the strong electrophilicity of the ligands, further supporting their potential anticancer activities. Viscosalactone B, another phytochemical from Ashwagandha, also showed interactions involving 6 hydrogen bonds with NQO1, with a glide gscore of (-4.593 kcal/mol). Molecular dynamic simulations validated the stability of the Withaferin A-NQO1 complex. ADME-T properties predicted high oral absorption for the selected ligands, indicating that Withaferin A could be a viable orally administered drug.

Evaluation of Lipid Profile Modulation by Berberis asiatica, Withania somnifera, and Their Synergy in Type 2 Diabetic Wistar Rats.

Introduction Type 2 diabetes mellitus (T2DM) is a chronic metabolic disorder characterized by insulin resistance and hyperglycemia, leading to complications such as dyslipidemia, which increases cardiovascular risks. Current treatments for dyslipidemia often have undesirable side effects. This study aims to evaluate the effects of Berberis asiatica (BA), Withania somnifera (WS), and their combination in the ratio of 1:1 on the lipid profile in T2DM-induced Wistar rats. Additionally, the study investigates the potential synergistic effects of these two herbs. Materials and methods Mature albino Wistar rats of both sexes were employed, weighing 150-250 g. Rats were obtained from the Central Animal House of Krishna Institute of Medical Sciences and kept under standard laboratory conditions. The study was conducted per the guidelines set by the Committee for Control and Supervision of Experiments on Animals (CCSEA). T2DM was induced using streptozotocin (STZ) and nicotinamide (NIC). Thirteen groups of rats were formed, including normal control (NC), diabetic control (DC), and various treatment groups received varying dosages of BA, WS, their polyherbal combination (PHC), and the conventional medications metformin (MET) and glimepiride (GLI). Lipid profiles were measured, and the data were analyzed using one-way ANOVA, followed by the Tukey-Kramer post-hoc test. Results The study revealed that both BA and WS showed statistically significant lipid-lowering effects in diabetic rats. The BA-treated groups displayed a statistically significant and considerable decrease in total cholesterol (TC) and low-density lipoprotein (LDL) levels compared to the DC group. Similarly, WS-treated groups also showed statistically significant reduced levels of TC and LDL, along with an increase in high-density lipoprotein (HDL). The PHC of BA and WS exhibited enhanced lipid-lowering effects compared to individual treatments. No significant differences in triglyceride (TG) levels were observed among the treatment groups. Conclusion BA and WS, individually and in combination, effectively modulate lipid profiles in T2DM rats. Their synergistic effects provide a promising alternative for managing dyslipidemia in diabetic patients. Further research is needed to determine the clinical consequences of these findings.

Acute and sub-chronic oral GLP toxicity of Withania somnifera root extract in Sprague Dawley rats.

OBJECTIVES: Withania somnifera (WS) is a valuable medicinal plant that has been used against several ailments. The medicinal properties of WS are ascribed to existence of secondary metabolites which are in great demand in herbal nutraceutical industry. Despite well-known therapeutic effects of WS, it is necessary to assess preclinical toxicity of WS plant on rats and further explore its potential application against treatment of various disorders in humans. The existing study assessed oral acute and sub-chronic toxicities of WS root extract in Sprague Dawley (SD) rats (male and female) for 14 and 90 days, respectively under OECD-423 and -408 guidelines as well as GLP compliance. METHODS: In acute toxicity, rats of either sex were orally fed a dose of 2,000 mg/kg. In sub-chronic toxicity, animals were orally administered repeated doses of WS root extract at 250, 500, 1,000 mg/kg for 90 days with an additional 14-day recovery period. Two more groups (n=5 animals each) receiving vehicle and 1,000 mg/kg of WS root extract for 90 days were also observed. RESULTS: In acute toxicity, the results revealed that LD50 of WS root extract in SD rats was higher than 2,000 mg/kg. In sub-chronic toxicity, oral administration of extract for 90 days showed no significant toxicological changes in rats. Haematological and serum chemistry markers were found within normal range. Terminal necropsy showed no gross or histopathological outcomes. CONCLUSIONS: The no-observed-adverse-effect level (NOAEL) of WS root extract was 1,000 mg/kg body weight, and safe to use at this dose in rats.

Ayurvedic Management of Presbycusis (Project TOPMAC): Protocol for an Exploratory Randomized Controlled Trial.

BACKGROUND: Presbycusis is characterized by sensorineural hearing loss in both ears at high frequencies, which affects more than half of the older adults by the age of 75 years and is often accompanied by tinnitus and cognitive deterioration. Unfortunately, there are no treatments available to restore hearing loss. Treatment mainly focuses on improving the quality of life and communication with hearing aids. Traditional medicine like Ayurveda also explains ailments of a similar nature as Badhirya and advises using drugs with antiaging and neuroprotective activity for treatment. In Ayurveda, Badhirya and Karnanada (senile deafness with tinnitus) are due to vitiation of Vata Dosha. Treatments such as topical oil pooling (Karnapurana) are usually advised to counter Vata, improve hearing capacity, and reduce tinnitus. Kshirabala Taila, a medicated oil formulation prepared with Sida cordifolia Linnaeus, is one of the most preferred oils for topical oil pooling in such conditions, as it has a definitive indication for sensory dysfunctions. Drugs like Withania somnifera (L.) Dunal (Ashwagandha) are also used, as they ameliorate neurodegeneration and help to improve cognitive dysfunction. OBJECTIVE: We propose an exploratory randomized controlled trial study for evaluating the efficacy of TOPMAC (Topical Oil Pooling with Kshirabala Taila and Supplementation of Ashwagandha Churna) in tinnitus suppression and hearing and cognitive function protection in patients aged 60-75 years with mild to moderate presbycusis. METHODS: A parallel, 2-group, exploratory randomized controlled trial will be conducted in an Indian Ayurvedic research center at its outpatient service. Participants (N=60) with mild to moderate presbycusis will be recruited by screening. Participants will be randomized (computer-generated 1:1) to receive either basic treatment and health education (BTHE) or BTHE+TOPMAC for 24 weeks. The primary objective is to compare the efficacy of TOPMAC with that of BTHE in the protection of hearing function. The secondary objective is to compare the efficacy of TOPMAC with that of BTHE in tinnitus suppression and cognitive function protection. RESULTS: This project was funded in January 2023. The institutional ethics committees at National Ayurveda Research Institute for Panchakarma (3/1/2020/NARIP/Tech/2036) and Institute for Communicative and Cognitive Neuro Sciences (IEC006) approved this study. The first patient was enrolled in September 2023; 22 participants were enrolled as of August 2024. The data analysis is yet to start, and the results are expected to be published by January 2025. CONCLUSIONS: If this exploratory trial is proven effective, it will steer the setting of a definitive randomized controlled trial to test whether the TOPMAC intervention can be incorporated as a cost-effective integrative approach for managing presbycusis. The Indian government has already launched a National Program for Prevention and Control of Deafness to benefit the deaf population. TOPMAC may later be considered for integration with the national program. TRIAL REGISTRATION: Clinical Trials Registry India CTRI/2023/04/051485; https://tinyurl.com/2h2hry3n. INTERNATIONAL REGISTERED REPORT IDENTIFIER (IRRID): DERR1-10.2196/55089.

Neuroprotective effects of Withania somnifera on ischemic stroke are mediated via anti-inflammatory response and modulation of neurotransmitter levels.

The present study was designed to evaluate the beneficial effects of hydroalcoholic root extract of Withania somnifera (WS) on ischemia-reperfusion injury (IRI) induced by Middle Cerebral Artery Occlusion (MCAO). MCAO animals showed increase in IL-6, TNF-α and MCP-1 levels in terms of mRNA and protein levels. Concomitantly, mRNA and protein levels for astrocyte and microglial activation markers; GFAP and IBA-1, were increased in MCAO animals. COX-2 and NF-kß protein levels were also increased in the brains of MCAO animals. The levels of neurotransmitters; glutamate and GABA were increased in the MCAO animals. On the contrary, levels of catecholamines; dopamine, norepinephrine and serotonin were reduced in the MCAO animals. Additionally, MCAO animals showed reduced locomotor activity. However, pre-supplementation with WS hydro-alcoholic root extract at a dose of 300mg/kg, body weight to MCAO animals reduced the expression of IL-6, TNF-α and MCP-1. In addition, WS also reduced the number of GFAP and Iba-1 positive cells in comparison to MCAO animals. WS pre-supplementation was also observed to inhibit MCAO induced increase in COX-2; NF-kß proteins and reduce the glutamate levels. The levels of GABA, dopamine, norepinephrine and serotonin were increased in WS pre-supplemented MCAO animals. WS pre-supplementation also prevented motor deficits in the MCAO animals. Taken together, these findings suggest that WS is effective in attenuating IRI induced neuroinflammation, neurochemical alterations and motor deficits in MCAO model of ischemic stroke thereby suggesting its ameliorative role in ischemia-reperfusion injury.

Management of diabetes mellitus using medicinal plants: A review.

Diabetes mellitus has a global impact affecting 422 million individuals and leading to significant health complications. This makes it a pressing global health concern. Present treatments prioritize alleviating symptoms; however, it is imperative to adopt a multitarget strategy. Herbal medicines, which have been historically employed in traditional medicine, have undergone animal experiments to assess their efficacy in reducing or preventing the disease. Known data shows that the phytochemicals found in medicinal plants have anti-hypoglycemic properties. Hence, we review the therapeutic properties of Withania somnifera, Trigonella foenum-graecum, Moringa oliefera, Memmordica charantia and Allium sativa.

Nano-cubosomes of the phyto-active principle in Withania somnifera: LC-MS-NMR, anti-microbial, and insights of the anti-neuropathic and anti-inflammatory mechanism.

Withania somnifera (W. somnifera) has a long history of safety in the amelioration of neuro-active ailments. The current study aims to explore Withania somnifera phyto-active principle anti-microbial, ant-neuropathic, and anti-inflammatory activities, and to modify these activities utilizing nano-cubosomes exploiting their mechanisms of action. Bio-guided fractionation technique was utilized, to identify the most phyto-active compound, using LC-MS-NMR online technique and biological models of diabetes, neuropathy, and inflammation. In-vitro antibacterial activity was also monitored. The HbA1c, in-vivo antioxidant (serum-catalase, TBARS, and GSH), serum insulin, and pro-inflammatory serum cytokines (TNF alpha, IL-six, and IL-ten) levels have been assessed to establish the anti-neuropathic and anti-inflammatory mechanisms. The nano-cubosomal formulations (CUB 1-3) were utilized to improve the W. somnifera most active compound efficacy. W. somnifera has shown ten major peaks; coagulin Q (10.2 %), dihydrowithanolide A (2.4 %), dihydrowithaferin D (1.8 %), physagulin D (7.6 %), withanoside V (2.3 %), withanolide A (WDA, 10.3 %), withafrin A (4.9 %), withaferin D (7.7 %), withanone 9 (9.9 %), withanolide D (4.8 %). The bio-guided fractionation technique utilizing LC-MS-NMR technique has proved that withanolide A (WDA) is the most phyto-active compound in W. somnifera. The latter has shown better results than WDA, which might be due to other effective compounds in Ws. However, CUB 3 (WDA nano-cubosomes dispersion) has shown more prominent anti-diabetic, anti-neuropathic, anti-inflammatory, and anti-bacterial potentials than Ws and WDA. Thus, CUB 3 modified WDA activity, and improved its efficacy. The normalization of HbA1c levels, increased insulin secretagogue potential, and the amelioration of the oxidative-stress may be the underlying Ws, WDA, and CUB 3 antidiabetic neuropathy mechanism. Moreover, the Ws, WDA, and CUB 1-3 anti-inflammatory mechanism might be due to the amelioration of the pro-inflammatory serum cytokines (decreasing TNF alpha and IL-six levels and increasing IL-ten). Thus, CUB 3 might be a powerful tool in augmenting Withania somnifera activity as an oral drug-delivery system and improving its efficacy against neuropathy and inflammation.

An In Silico Study on Withania somnifera Bioactives and Curcumin Analogs as Potential Inducers of Smoothened (Smo) Receptor of Sonic Hedgehog (SHH) Pathway to Promote Oligodendrogenesis.

Demyelinating disorder is a subset of neurodegenerative conditions wherein factors such as aging and/or auto-immune attack cause damage and degradation of myelin sheath which enwraps the neuronal axons. Lowered axonal integrity and sub-par conduction of nerve impulses due to impaired action potentials make neurodegeneration imminent as the neurons do not have mitotic ability to replenish their numbers. Oligodendrocytes (OLs) myelinate the axonal segments of neurons and perform neuronal maintenance. Neuroregenerative stem cell therapy exploits this property for remyelination by targeting OL replenishment using in vitro stem cell differentiation protocols for inducing OL lineage cells. But some shortcomings of such protocols are over-reliance on synthetic inducers, lengthy differentiation process, low differentiation efficiency besides being financially expensive. This in silico study sought to identify herbal substitutes of currently available OL-lineage-specific synthetic inducers from a virtual library of curcumin analogs and Withania somnifera bioactives. Smoothened (Smo) receptor belonging to the canonical sonic hedgehog (SHH) signaling pathway promotes in vivo differentiation of OLs as well as their subsequent lineage progression to myelinating OLs. Therefore, we performed pharmacokinetics prediction for the bioactives followed by their molecular docking and molecular dynamics simulation with Smo. From a pool of 1289 curcumin analogs and 80 Withania somnifera-derived bioactives, the best docked ligands were identified as the compounds with PubChem IDs 68815167 and 25880, respectively. Molecular dynamics simulation of these ligands further concluded the Withania somnifera bioactive 25880 to have the best activity with Smo. This compound may be deemed as a potential lead molecule for an agonistic interaction with and activation of Smo to initialize its downstream signaling cascade for enriching OL differentiation.

Phytochemical analysis of Tinospora cordifolia and Withania somnifera and their therapeutic activities with special reference to COVID-19.

Various important medicines make use of secondary metabolites that are produced by plants. Medicinal plants, such as Withania somnifera and Tinospora cordifolia, are rich sources of chemically active compounds and are reported to have numerous therapeutic applications. The therapeutic use of medicinal plants is widely mentioned in Ayurveda and has folkloric importance in different parts of the world. The aim of this review is to summarize the phytochemical profiles, folkloric importance, and primary pharmacological activity of W. somnifera and T. cordifolia with emphasis on their action against the novel coronavirus.

Liquid chromatography-mass spectrometry quantification of phytochemicals in Withania somnifera using data-dependent acquisition, multiple-reaction-monitoring, and parallel-reaction-monitoring with an inclusion list.

Characterization of botanical extracts by mass spectrometry-based metabolomics analysis helps in determining the phytochemical composition that underlies their bioactivity and potential health benefits, while also supporting reproducibility of effects in clinical trials. The quantification of seven withanolides in Withania somnifera using three mass-spectrometry methods was evaluated using Deming regression. Two high-resolution time-of-flight mass spectrometry methods were used, one operating in data-dependent acquisition mode and the other in parallel-reaction-monitoring mode with an inclusion list. The two high-resolution time-of-flight mass spectrometry methods were compared to a multiple-reaction-monitoring method. We evaluated in-source fragmentation of steroidal glycosides and optimized the methods accordingly. A novel software approach to integrating parallel-reaction-monitoring data acquired with an inclusion list was developed. Combining and comparing quantitative results allowed for quantitative specificity, good precision, and adjustment of instrument source conditions for optimal quantification by multiple-reaction-monitoring mass spectrometry, an analytical method that is widely accessible in analytical and phytochemical laboratories.

Phytochemical characterization, biochemical profiling and evaluation of anticancer potential of methanolic extract of Withania somnifera stem.

OBJECTIVES: Phytotherapy employs phytoconstituents/phytomedicines derived from plants for treating and preventing illnesses. Withania somnifera is known in the Indian Ayurveda Pharmacopoeia for its medicinal applications and pharmacological properties. In this study, we examined the biological activity spectrum of Withania somnifera methanolic extract of stem (WSME), which is valued as a "Rasayana" due to its extensive range of medicinal uses. METHODS: WSME was subjected to TPC and TFC quantification and bioactive components were characterized using LC-MS. Its antioxidant potential was gauged by DPPH and H2O2 radical scavenging assays, while antibacterial efficacy was assessed against S. aureus and E. coli using disc diffusion assay. In vitro anticancer activity was evaluated against human breast cancer MDA-MB-231 cells while toxicity was evaluated against normal Vero cells using MTT assay. RESULTS: WSME, rich in Withaferin A, showed TPC of 4.73 ± 0.15 mg GAE/g and TFC of 94.94 ± 6.15 mg QE/g dry weight of extract. It exhibited significant antioxidant activity (43.28 and 66.8 % inhibition at 1,000 µg/mL using DPPH and H2O2 assays, respectively) and mild antibacterial effects against S. aureus (300-500 mg/mL). WSME induced cell death in MDA-MB-231 cells and significantly inhibited their growth (IC50: 66 µg/mL, P value<0.05) without affecting normal Vero cells in the studied range of 25-400 µg/mL (IC50: 6.09 mg/mL, P value>0.05). CONCLUSIONS: The present study lends support to further testing of WSME against other cancer cell lines and animal models of cancer. These preclinical studies would provide further validation to its prospective use as an adjunct in human breast cancer therapy.

Tissue-Level Effect of Andrographis and Ashwagandha Metabolites on Metabolic and Inflammatory Gene Expression in Skeletal Muscle and Adipose Tissue: An Ex Vivo/In Vitro Investigation.

Adipose tissue and skeletal muscle dysfunction play a central role in cardiometabolic morbidity. Ashwagandha and Andrographis are purported to have anti-inflammatory and antioxidant activity, but this is based on exposure of cells to the parent compounds ignoring phytochemical absorption and metabolism. We explored the anti-inflammatory/antioxidant effects of ashwagandha and Andrographis in ex vivo human models of skeletal muscle and adipose tissue. Healthy participants supplemented with 2000 mg/day Andrographis (n = 10) or 1100 mg/day ashwagandha (n = 10) for 28 days. Sera collected pre (D0) and post (D28) supplementation were pooled by timepoint and added to adipose explant (AT) and primary human myotube (SKMC) culture media (15% v/v) for treatment. A Taqman panel of 56 genes was used to quantify these. In AT, treatment with ashwagandha sera decreased the expression of genes involved in antioxidant defence and inflammatory response (CCL5, CD36, IL6, IL10, ADIPOQ, NFEL2, UCP2, GPX3, GPX4; geometric 95% CI for fold change > 1) and altered the expression of genes involved in fatty acid metabolism. In SKMC, ashwagandha sera altered FOXO1 and SREBF1 expression. Andrographis sera decreased IL18 and SERPINEA3 expression in AT. This physiologically relevant in vitro screening characterises the effects of ashwagandha in AT to guide future clinical trials.

Ashwagandha-Induced Programmed Cell Death in the Treatment of Breast Cancer.

The aim of this review is to provide experimental evidence for the programmed-death activity of Ashwagandha (Withania somnifera) in the anti-cancer therapy of breast cancer. The literature search was conducted using online electronic databases (Google Scholar, PubMed, Scopus). Collection schedule data for the review article covered the years 2004-2024. Ashwagandha active substances, especially Withaferin A (WA), are the most promising anti-cancer compounds. WS exerts its effect on breast cancer cells by inducing programmed cell death, especially apoptosis, at the molecular level. Ashwagandha has been found to possess a potential for treating breast cancer, especially estrogen receptor/progesterone receptor (ER/PR)-positive and triple-negative breast cancer.

Biosynthesis of the triterpenoid withanolides in Withaniasomnifera.

Ashwagandha (Withania somnifera L. Dunal) is a versatile medicinal plant of Solanaceae family, renowned for its potent therapeutic properties, due to which it is extensively used in Indian traditional systems of medicine such as Ayurveda. The medicinal properties are attributed to specialized metabolites known as withanolides, which are chemically triterpenoid steroidal lactones. Despite their significance, the biosynthetic pathway of withanolides remains poorly understood. It is hypothesized that withanolides are synthesized through the universal sterol pathway, wherein sterol precursors undergo various biochemical modifications such as hydroxylation, oxidation, cyclization, and glycosylation, yielding a diverse array of downstream withanolides and withanosides. Consequently, comprehending the biosynthetic pathway of withanolides is crucial to facilitate advancements in withanolides productivity through metabolic engineering or synthetic biology approaches. This article aims to provide an update on the efforts made toward understanding withanolides formation and regulation and highlights gaps and approaches to elucidate the withanolides biosynthesis in W. somnifera.

A standardized combination of Terminalia chebula and Withania somnifera extracts enhances immune function in adults: a pilot randomized, double-blind, placebo-controlled clinical study.

Background: The use of botanical medicine has been demonstrated as a potential strategy to manage or treat a variety of health issues. Terminalia chebula (Retz) fruit and Withania somnifera (L.) Dunal roots are important medicinal herbs described in Ayurveda and traditional therapy for diverse health benefits. Objective: This pilot study aimed to evaluate the immune function-enhancing potential of a unique blend of T. chebula fruit and W. somnifera root extracts, LN20189, in healthy men and women. Methods: Forty healthy volunteers (age: 35-60 years) were randomized into two groups receiving either LN20189 (500 mg per day) or a matched placebo over 28 consecutive days. The total T-cell population was the primary efficacy measure in this study. The secondary efficacy measures included counts of CD4, CD8, natural killer (NK) cells, serum levels of interleukin-2 (IL-2), interferon-gamma (IFN-γ), total immunoglobulin-G (IgG), and Immune Function Questionnaire (IFQ) scores. Safety parameter assessments were also conducted. Results: Post-trial, in LN20189-supplemented subjects, T cells, CD4, NK cells count, and the CD4:CD8 ratio were increased by 9.32, 10.10, 19.91, and 17.43%, respectively, as compared to baseline. LN20189 supplementation increased serum IFN-γ and IgG levels by 14.57 and 27.09% from baseline and by 13.98 and 21.99%, compared to placebo, respectively. Also, the IFQ scores in the LN20189 group were 84.68% (vs. baseline) and 69.44% (vs. placebo) lower at the end of the trial. LN20189 improved the study volunteers' cellular and humoral immune functions. Conclusion: In summary, LN20189 supplementation was found tolerable and improved the key cellular and humoral factors of the immune system and helped improve immune function of the trial volunteers.

Current insights into transcriptional role(s) for the nutraceutical Withania somnifera in inflammation and aging.

The health-beneficial effects of nutraceuticals in various diseases have received enhanced attention in recent years. Aging is a continuous process wherein physiological activity of an individual declines over time and is characterized by various indefinite hallmarks which contribute toward aging-related comorbidities in an individual which include many neurodegenerative diseases, cardiac problems, diabetes, bone-degeneration, and cancer. Cellular senescence is a homeostatic biological process that has an important function in driving aging. Currently, a growing body of evidence substantiates the connection between epigenetic modifications and the aging process, along with aging-related diseases. These modifications are now being recognized as promising targets for emerging therapeutic interventions. Considering that almost all the biological processes are modulated by RNAs, numerous RNA-binding proteins have been found to be linked to aging and age-related complexities. Currently, studies have shed light on the ability of the nutraceutical Withania somnifera (Ashwagandha) to influence RNA expression, stability, and processing, offering insights into its mechanisms of action. By targeting RNA-related pathways, Withania somnifera may exhibit promising effects in ameliorating age-associated molecular changes, which include modifications in gene expression and signaling networks. This review summarizes the potential role of Withania somnifera as a nutraceutical in modulating RNA-level changes associated with aging, encompassing both in vitro and in vivo studies. Taken together, the putative role(s) of Withania in modulation of key RNAs will provide insights into understanding the aging process and facilitate the development of various preventive and therapeutic strategies employing nutraceuticals for healthy aging.

An update on existing therapeutic options and status of novel anti-metastatic agents in breast cancer: Elucidating the molecular mechanisms underlying the pleiotropic action of Withania somnifera (Indian ginseng) in breast cancer attenuation.

Major significant advancements in pharmacology and drug technology have been made to heighten the impact of cancer therapies, improving the life expectancy of subjects diagnosed with malignancy. Statistically, 99% of breast cancers occur in women while 0.5-1% occur in men, the female gender being the strongest breast cancer risk factor. Despite several breakthroughs, breast cancer continues to have a worldwide impact and is one of the leading causes of mortality. Additionally, resistance to therapy is a crucial factor enabling cancer cell persistence and resurgence. As a result, the search and discovery of novel modulatory agents and effective therapies capable of controlling tumor progression and cancer cell proliferation is critical. Withania somnifera (L.) Dunal (WS), commonly known as Indian ginseng, has long been used traditionally for the treatment of several ailments in the Indian context. Recently, WS and its phytoconstituents have shown promising anti-breast cancer properties and, as such, can be employed as prophylactic as well as therapeutic adjuncts to the main line of breast cancer treatment. The present review is an attempt to explore and provide experimental evidences in support of the prophylactic and therapeutic potential of WS in breast cancer, along with a deeper insight into the multiple molecular mechanisms and novel targets through which it acts against breast and other hormonally-induced cancers viz. ovarian, uterine and cervical. This exploration might prove crucial in providing better understanding of breast cancer progression and metastasis and its use as an adjunct in improving disease prognosis and therapeutic outcome.