Current analytical strategies for the determination of resveratrol in foods

Higher Intake of Resveratrol Is Associated With a Lower Risk of Colorectal Cancer: A Large-Scale Case-Control Study

Resveratrol, a natural bioactive compound derived from plants, has shown potential anti-colorectal cancer effects in preclinical studies, though population-based epidemiologic evidence is limited. This study aimed to investigate the association between resveratrol intake and colorectal cancer risk in a population from Guangdong, China. Conducted between July 2010 and January 2024, this case-control study included 3030 newly diagnosed colorectal cancer patients and 3044 frequency-matched controls by sex and age (± 5 years). Dietary data were collected using a validated food frequency questionnaire with 81 items, and resveratrol intake was estimated from resveratrol and piceid content based on the China Food Composition Table Standard Edition. Multivariable unconditional logistic regression models were applied to estimate the odds ratios (OR) and 95% confidence intervals (CI) for the association between resveratrol intake and colorectal cancer risk. The results indicated that higher dietary resveratrol intake was associated with a reduced risk of colorectal cancer. The highest quintile of total resveratrol intake was associated with a 44% lower risk of colorectal cancer compared to the lowest quintile (OR: 0.56, 95% CI: 0.44-0.72, ptrend < 0.001). This association was consistent for resveratrol derived from vegetables, fruits, edible fungi, and nuts. Sex-stratified analysis revealed a stronger protective effect in men (pinteraction = 0.033). Overall, these findings suggest that achievable dietary levels of resveratrol may be associated with a lower risk of colorectal cancer. Further prospective cohort studies and randomized controlled trials are needed to confirm these results.

Caenorhabditis elegans as in vivo model for the screening of natural plants-derived novel anti-aging compounds: a short introduction

The global aging population highlights the need for effective anti-aging treatments. Natural products show promise, but thorough evaluation requires in vivo models due to the complexity of aging. Ethical concerns are driving a shift from traditional models like rabbits and mice to alternatives such as Caenorhabditis elegans. This microscopic nematode, with its short life cycle, genetic similarities to humans, and cost-effectiveness, is ideal for testing anti-aging compounds. We review studies using C. elegans to assess natural products, suggesting it could serve as a primary model for -evaluating the safety and efficacy of plant-derived anti-aging compounds.

The significance of the activating transcription factor 6 gene in the pathogenesis of drug resistant cancer

Chemotherapy remains a cornerstone in cancer therapy, but its effectiveness is often hindered by the development of drug resistance, a significant factor contributing to over 90 % of cancer-related deaths worldwide. A critical aspect of this resistance involves chronic endoplasmic reticulum stress, which activates the unfolded protein response (UPR), mainly through the activation of Activating Transcription Factor 6 (ATF6). Elevated ATF6 expression has been found to correlate with poor survival outcomes and increased resistance to chemotherapy across several malignancies. This study specifically investigates the role of ATF6 in cancer pathogenesis, focusing on its involvement in resistance mechanisms and the progression of the disease. Given the complex interactions between the UPR and other cellular pathways, including the DNA damage response (DDR), our findings emphasize the potential of targeting ATF6 and UPR and DDR pathways as a novel therapeutic strategy. This approach could potentially overcome chemoresistance and improve outcomes in cancer treatment.

Methods for Synthesis and Extraction of Resveratrol from Grapevine: Challenges and Advances in Compound Identification and Analysis

Resveratrol is the most important biopotential phytoalexin of the stilbene group (natural polyphenolic secondary metabolites), synthesized naturally by the action of biotic and abiotic factors on the plant. The yield of individual bioactive compounds isolated from grapevine components, products and by-products is directly dependent on the conditions of the synthesis, extraction and identification techniques used. Modern methods of synthesis and extraction, as well as identification techniques, are centred on the use of non-toxic solvents that have the advantages of the realisation of rapid extractions, maintenance of optimal parameters, and low energy consumption; this is a challenge with promising results for various industrial applications. Actionable advances in identifying and analysing stilbenes consist of techniques for coupling synthesis/extraction/identification methods that have proven accurate, reproducible and efficient. The main challenge remains to keep resveratrol compositionally unaltered while increasing its microbiome solubility and stability as a nutraceutical in the food industry.

Physicochemical and rheological characteristics of commercial Greek-style yogurt enriched with Polygonum cuspidatum roots or the P. Cuspidatum β-cyclodextrin inclusion complex

In this work, the effects of enriching commercial Greek-style yogurt with β-cyclodextrin-encapsulated Polygonum cuspidatum hydroalcoholic extract powder (YE) or P. cuspidatum root powder (YR) on the physicochemical properties of yogurt were compared. Greek-style yogurt was used as a control (YC). The yogurt samples were characterized by their pH, color, water content, water activity, droplet size, small amplitude oscillation shear (SAOS), and large amplitude oscillation shear (LAOS) viscoelastic properties, thixotropy, and syneresis. The pH, water content and water activity did not significantly differ among the yogurt samples. The YR and YE had yellowish-green colors, displaying values of 79.8, -5.39 and 23.42 and 68.29, -3.45 and 25.45 for L*, a* and b*, respectively. The average particle size of YE (30.3 µm) was larger than those of YR (26.8 µm) or YC (25.2 µm), displaying bimodal distributions. The yogurts predominantly exhibited elastic behavior, with slight frequency dependence, characteristic of weak gel structures. The SAOS and LAOS results showed that YE presented the highest viscoelastic properties, probably due to the greater degree of structuration provided by the free hydroxyl groups of the encapsulated polyphenols and the yogurt proteins. The thixotropy results revealed that YE (-501 ±29 Pa) and YR (-468 ± 31 Pa) exhibited greater restructuring after deformation than did YC (-1022 ± 68 Pa). However, compared with YC, YE resulted in gels with a greater degree of syneresis (∼7% more). These results suggest that Greek-style yogurt could be an effective route for incorporating beneficial antioxidant compounds. However, more studies are needed to demonstrate its efficacy and acceptance by consumers.

Potential Transformation of Food Resveratrol: Mechanisms and Biological Impact

Resveratrol is a naturally occurring phenolic compound found in foods like grapes, berries, and peanuts. It has attracted substantial interest for its potential human health benefits, including antioxidant and anti-inflammatory effects. Research indicates that resveratrol may contribute to cardiovascular health, protect cognitive function, and exhibit anticancer properties. However, various factors such as pH levels, exposure to light, specific enzymes, and metal ions can alter its chemical structure, affecting its biological activities. These reactions can lead to the formation of different metabolites and polymers, which may affect the stability and bioactivity of resveratrol. This review examines the transformation of resveratrol from its natural sources to its consumption by humans. Additionally, we explore the biological activities of the resulting compounds of resveratrol transformations.

Chemical characterization of Siraitia grosvenorii granules and their efficacy and mechanism of action on PM2.5-induced acute lung injury

This study aimed to investigate the potential protective properties of a traditional Chinese medicine (TCM) herbal product, Siraitia grosvenorii granules (SGG) against PM2.5-induced lung injury, as well as their active constituents and underlying mechanisms. The chemical composition of SGG, such as wogonin (MOL000173), luteolin (MOL000006), nobiletin (MOL005828), naringenin (MOL004328), acacetin (MOL001689), were identified via ultra-high-performance liquid chromatography-Q Exactive (UHPLC-QE) Orbitrap/MS. The specific targets and pathways through which the compounds exert their effects on acute lung injury were then predicted via network pharmacology. The lung-protective effects of SGG against particulate matter (PM2.5) were investigated via in vivo experiments. Results showed that PM2.5-induced lung damage was associated with oxidative stress, suppression of PI3K/AKT/Nrf2 pathway, and increased levels of certain alarmins & cytokines in blood and bronchial alveolar lavage fluid (BALF). However, SGG reversed these changes, particularly tissue damage and oxidative stress, suggesting that lung protection is mediated by the antioxidant effect, which mitigates the release of alarmin and inflammation.

Resveratrol nanocrystals based dissolving microneedles with highly efficient for rheumatoid arthritis

Rheumatoid arthritis (RA) is a common immune disease characterized mainly by erosive arthritis with extensive clinical sequelae. Resveratrol (Res) has pharmacological effects in the treatment of RA, but it has not been widely used in the clinic due to its poor water solubility and low bioavailability. In this study, a drug delivery system (Res-NC MNs) of dissolved microneedles (MNs) loaded with Res nanocrystals (NC) was designed for the treatment of RA. Res-NC MNs can improve the drawbacks of long-term oral drug delivery with toxic side effects and low compliance associated with intra-articular drug delivery. In this study, Res-NC was prepared by media milling and loaded into soluble microneedles prepared from hyaluronic acid (HA) by vacuum casting for the treatment of RA. HA has high mechanical strength and can penetrate the cuticle layer of the skin for effective drug delivery. In in vivo pharmacodynamic experiments, Res-NC MNs achieved better therapeutic efficacy in the treatment of RA compared with oral Res. These findings suggest that Res-NC MNs may be an effective and promising drug delivery strategy for the treatment of RA.

A new and highly efficient source of t-resveratrol: Cephalaria Syriaca (L.) Roem. & Schult

Recently, interest in bioactive plant compounds has increased due to their properties in preventing and treating diseases like cancer and neurodegenerative disorders. In this study, caffeic acid and t-resveratrol were extracted from Cephalaria syriaca seeds using ultrasonic assisted extraction (UAE) and supercritical carbon dioxide (Sc-CO2) extraction methods. Independent variables were temperature (40, 60, 80 °C), pressure (130, 215, and 300 bar), and co-solvent ratio (ethanol v/v (3.0, 6.5, 10.0%)) were selected. While extraction process conditions were optimized using response surface methodology, polyphenols were determined by an HPLC system. As a result of the Sc-CO2 experimental studies, maximum caffeic acid (88.75 ± 1.71 μg/g dw) was obtained at 80 °C, 130 bar, and 10% ethanol conditions and maximum t-resveratrol (2949.45 ± 51.78 μg/g dw) was obtained at 60 °C, 130 bar, and 6.5% ethanol conditions. The results of the UAE method were found to be 76.21 ± 2.40 μg/g dw caffeic acid and 4629 ± 123.2 μg/g dw t-resveratrol.

Resveratrol: Challenges and prospects in extraction and hybridization with nanoparticles, polymers, and bio-ceramics

Resveratrol (RSV), a bioactive natural phenolic compound found in plants, fruits, and vegetables, has garnered significant attention in pharmaceutical, food, and cosmetic industries due to its remarkable biological and pharmacological activities. Despite its potential in treating various diseases, its poor pharmacokinetic properties, such as low solubility, stability, bioavailability, and susceptibility to rapid oxidation, limit its biomedical applications. Recent advancements focus on incorporating resveratrol into innovative materials like nanoparticles, polymers, and bio-ceramics to enhance its properties and bioavailability. In this review, an exhaustive literature search was conducted from PubMed, Google Scholar, Science Direct, Scopus, and Web of Science databases to explore these advancements, to compares conventional and innovative extraction methods, and to highlights resveratrol's therapeutic potential, including its anti-inflammatory, anti-oxidative, anti-cancerogenic, antidiabetic, neuroprotective, and cardio-protective properties. Additionally, we discuss the challenges and prospects of hybrid materials combining resveratrol with nanoparticles, polymers, and bio-ceramics for therapeutic applications. Rigorous studies are still needed to confirm their clinical efficacy.

Potential application of natural compounds in ischaemic stroke: Focusing on the mechanisms underlying "lysosomocentric" dysfunction of the autophagy-lysosomal pathway

Ischaemic stroke (IS) is the second leading cause of death and a major cause of disability worldwide. Currently, the clinical management of IS still depends on restoring blood flow via pharmacological thrombolysis or mechanical thrombectomy, with accompanying disadvantages of narrow therapeutic time window and risk of haemorrhagic transformation. Thus, novel pathophysiological mechanisms and targeted therapeutic candidates are urgently needed. The autophagy-lysosomal pathway (ALP), as a dynamic cellular lysosome-based degradative process, has been comprehensively studied in recent decades, including its upstream regulatory mechanisms and its role in mediating neuronal fate after IS. Importantly, increasing evidence has shown that IS can lead to lysosomal dysfunction, such as lysosomal membrane permeabilization, impaired lysosomal acidity, lysosomal storage disorder, and dysfunctional lysosomal ion homeostasis, which are involved in the IS-mediated defects in ALP function. There is tightly regulated crosstalk between transcription factor EB (TFEB), mammalian target of rapamycin (mTOR) and lysosomal function, but their relationship remains to be systematically summarized. Notably, a growing body of evidence emphasizes the benefits of naturally derived compounds in the treatment of IS via modulation of ALP function. However, little is known about the roles of natural compounds as modulators of lysosomes in the treatment of IS. Therefore, in this context, we provide an overview of the current understanding of the mechanisms underlying IS-mediated ALP dysfunction, from a lysosomal perspective. We also provide an update on the effect of natural compounds on IS, according to their chemical structural types, in different experimental stroke models, cerebral regions and cell types, with a primary focus on lysosomes and autophagy initiation. This review aims to highlight the therapeutic potential of natural compounds that target lysosomal and ALP function for IS treatment.

Enhancing adipose tissue functionality in obesity: senotherapeutics, autophagy and cellular senescence as a target

Obesity, a global health crisis, disrupts multiple systemic processes, contributing to a cascade of metabolic dysfunctions by promoting the pathological expansion of visceral adipose tissue (VAT). This expansion is characterized by impaired differentiation of pre-adipocytes and an increase in senescent cells, leading to a pro-inflammatory state and exacerbated oxidative stress. Particularly, the senescence-associated secretory phenotype (SASP) and adipose tissue hypoxia further impair cellular function, promoting chronic disease development. This review delves into the potential of autophagy modulation and the therapeutic application of senolytics and senomorphics as novel strategies to mitigate adipose tissue senescence. By exploring the intricate mechanisms underlying adipocyte dysfunction and the emerging role of natural compounds in senescence modulation, we underscore the promising horizon of senotherapeutics in restoring adipose health. This approach not only offers a pathway to combat the metabolic complications of obesity, but also opens new avenues for enhancing life quality and managing the global burden of obesity-related conditions. Our analysis aims to bridge the gap between current scientific progress and clinical application, offering new perspectives on preventing and treating obesity-induced adipose dysfunction.

Resveratrol inhibits calcium oxalate crystal growth, reduces adhesion to renal cells and induces crystal internalization into the cells, but promotes crystal aggregation

Resveratrol is a natural phenolic compound that belongs to stilbenoid group found in diverse plants. Health benefits and therapeutic potentials of resveratrol have been widely recognized in various diseases. In kidney stone disease, it can alleviate oxalate-induced hyperproduction of free radicals in renal epithelial cells. Nevertheless, its direct effects on calcium oxalate (CaOx) crystal, which is the major stone component, remained unclear. This study therefore addressed the direct effects of resveratrol (at 1, 10 or 100 μM) on each step of CaOx kidney stone formation. The results revealed that resveratrol had no significant effects on CaOx crystallization. However, resveratrol significantly decreased CaOx crystal growth and adhesion to renal epithelial cells at all concentrations, and induced crystal internalization into the cells (a process related to crystal degradation by endolysosomes) in a concentration-dependent manner. On the other hand, resveratrol promoted crystal aggregation. These data indicate that resveratrol serves as a dual modulator on CaOx stone formation. While it inhibits CaOx stone development by reducing crystal growth and adhesion to renal cells and by inducing crystal internalization into the cells, resveratrol promotes crystal aggregation, which is one of the mechanisms leading to kidney stone formation.