Therapeutically important bioactive compounds of the genus Polygonum L. and their possible interventions in clinical medicine

Polydatin reactivates mitochondrial bioenergetics and mitophagy while preventing premature senescence by modulating microRNA-155 and its direct targets in human fibroblasts with trisomy 21

Mitochondrial dysfunction and redox dyshomeostasis are considered crucial factors causally linked to the pathogenesis of Down syndrome (DS), a human genetic anomaly currently lacking a cure, associated with neurodevelopmental deficits in children and early onset symptoms of aging in adults. Several natural plant-derived polyphenolic compounds, known for their neurostimulator, antioxidant and anti-inflammatory activities, have been proposed as dietary supplements to manage DS-linked phenotypic alterations. However, the poor bioavailability and rapid metabolism of these compounds have limited conclusive evidence regarding their clinical efficacy in individuals with DS. Polydatin (PLD), a natural polyphenolic glucoside precursor of resveratrol derived from Polygonum cuspidatum, is instead highly bioavailable and resistant to enzymatic oxidation. PLD supplementation has shown many therapeutic efficacies in several human diseases without side effects. In this study, we used fetal trisomy 21 human skin fibroblasts (DS-HSFs) to investigate, from a mechanistic point of view, whether PLD supplementation could prevent or counteract critical cellular alterations linked to both neurodevelopmental deficits and early aging in DS. Our findings demonstrate that PLD reactivates mitochondrial bioenergetics, reduces oxygen radical overproduction and prevents oxidative stress (OS)-induced cellular senescence and DNA damage in DS-HSF. Notably, we identified a novel mechanism of PLD action involving the chromosome-21-encoded microRNA-155 (miR-155) and its direct target genes casitas B-lineage lymphoma (CBL), BAG Cochaperone 5 (BAG5) and mitochondrial transcription factor A (TFAM). These proteins play pivotal roles in regulating mitochondrial bioenergetics, biogenesis and mitophagy. Given that the deregulation of miR-155/CBL axis is also implicated in acute leukemias, which frequently occur in children with DS, PLD emerges as a promising candidate for translational application. Its ability to enhance mitochondrial bioenergetics and address critical DS-associated phenotypic alterations highlights its therapeutic potential.

Herbal bioactive-loaded biopolymeric formulations for wound healing applications

Recent advancements in wound healing technologies focus on incorporating herbal bioactives into biopolymeric formulations. A biocompatible matrix that promotes healing is provided by biopolymeric wound dressings. These dressings use components such as ulvan, hyaluronic acid, starch, cellulose, chitosan, alginate, gelatin, and pectin. These natural polymers assist in three crucial processes, namely, cell adhesion, proliferation, and moisture retention, all of which are necessary for effective wound repair. Curcumin, quercetin, Aloe vera, Vinca alkaloids, and Centella asiatica are some of the herbal bioactives that are included in biopolymeric formulations. They have powerful anti-inflammatory, antibacterial, and antioxidant activities. Chitosan, cellulose, collagen, alginate, and hyaluronic acid are some of the biopolymers that have shown promise in clinical trials for wound healing. These trials have also confirmed the safety and functional performance of these materials. Their recent advancements in wound care can be understood by the increasing number of patents linked to these formulations. These innovative dressings improve healing outcomes in acute and chronic wounds while minimizing adverse effects by incorporating biopolymers with herbal bioactives in an efficient manner. This review emphasizes that the development of next-generation wound care products can be facilitated via the integration of natural materials and bioactive substances.

Multiple benefits of herbs: Polygonaceae species in veterinary pharmacology and livestock nutrition

Herbs rich in secondary metabolites may possess beneficial properties in livestock nutrition and health. 49 Polygonaceae species of European mountain regions were included in a qualitative systematic review based on the methodological framework of the PRISMA statement. 174 relevant publications were identified. They comprised 231 in vitro and 163 in vivo experiments with cattle, sheep, goats, poultry, pigs, and rodents. For 16 Polygonaceae species no reports were found. Fagopyrum esculentum and Fagopyrum tataricum showed potential as anti-inflammatory, antioxidative and metabolic modifying herbs and feeds improving intake and nitrogen conversion in broiler as well as milk quality and ruminal biotransformation in dairy cows. Polygonum aviculare was promising as an antimicrobial and anti-inflammatory drug or feed, improving performance and affecting ruminal biotransformation in sheep, and Polygonum bistorta as an anti-inflammatory drug or feed, improving performance in broiler and mitigating methane emissions in ruminants. Rumex obtusifolius showed potential as an antibacterial drug or feed improving ruminal biotransformation and preventing bloating in cows, while Rumex acetosa and Rumex acetosella had antimicrobial and anti-inflammatory properties. Furthermore, Polygonum minus, Polygonum persicaria, Rumex crispus and Rumex patientia possess interesting anti-inflammatory and antimicrobial activities. In conclusion, some Polygonaceae species show relevant properties that might be useful to prevent and treat livestock diseases, combined with nutritional benefits in performance, product quality, lowering ruminal methane and ammonia formation and transferring omega-3 fatty-acids from feed to tissue. The potential of such multifunctional plants for a holistic integration of veterinary, nutritional and ecological perspectives under a one-health approach of livestock management is discussed.

Albumin as an Effective Auxiliary Agent for the Enriched Extraction of Anthraquinones and Curcumin from Plant Matrices

Nowadays, several processes to enrich desired bioactive compounds in plant extracts have been developed. The objective of the present study was to assess the performance of bovine serum albumin in increasing the extractive yields of anthraquinones and diarylheptanoids from their respective raw plant powder extracts. Aloe emodin, rhein, emodin, and chrysophanol, from Polygonum cuspidatum, Senna alexandrina, Rhamnus frangula, and Rheum palmatum, and curcumin from Curcuma longa were analyzed in parent dry extracts, solubilized either with water, ethanol, or hydro-alcoholic mixtures, and in ones treated with aqueous solutions of bovine serum albumin by HPLC with UV/Vis detection. The different ratios between the volumes of solvents, powdered plant extracts, and bovine serum albumin were tested. The addition of albumin provided an increase in the yields of aloe emodin in the range 7.8-50.4-fold; of rhein in the range 6.1-14.1-fold; of emodin in the range 19.7-39.7-fold; of chrysophanol in the range 15.1-28.7-fold; and, finally, of curcumin of 32.1-fold. The addition of bovine serum albumin in the processing of plant extracts has been shown to be a novel and a valid alternative, comparing favourably to already reported methodologies. The easy-to-handle procedures, readily accessible facilities, and the employment of cheap substrates and reagents represent the most evident advantages of the methodology described herein.

Reversal of neurodevelopmental impairment and cognitive enhancement by pharmacological intervention with the polyphenol polydatin in a Down syndrome model

Intellectual disability (ID) is the unavoidable hallmark of Down syndrome (DS), a genetic condition due to triplication of chromosome 21. ID in DS is largely attributable to neurogenesis and dendritogenesis alterations taking place in the prenatal/neonatal period, the most critical time window for brain development. There are currently no treatments for ID in DS. Considering the timeline of brain development, treatment aimed at improving the neurological phenotypes of DS should be initiated as early as possible and use safe agents. The goal of this study was to establish whether it is possible to improve DS-linked neurodevelopmental defects through early treatment with polydatin, a natural polyphenol. We used the Ts65Dn mouse model of DS and focused on the hippocampus, a brain region fundamental for long-term memory. We found that in Ts65Dn mice of both sexes treated with polydatin from postnatal (P) day 3 to P15 there was full restoration of neurogenesis, neuron number, and dendritic development. These effects were accompanied by normalization of Cyclin D1 and DSCAM levels, which may account for the rescue of neurogenesis and dendritogenesis, respectively. Importantly, in Ts65Dn mice treated with polydatin from P3 to adolescence (∼P50) there was full restoration of hippocampus-dependent memory, indicating a pro-cognitive outcome of treatment. No adverse effects were observed on the body and brain weight. The efficacy and safety of polydatin in a model of DS prospect the possibility of its use during early life stages for amelioration of DS-linked neurodevelopmental alterations.

Using In Vitro and In Silico Analysis to Investigate the Chemical Profile and Biological Properties of Polygonum istanbulicum Extracts

The present study investigates the chemical profile and biological activities of Polygonum istanbulicum M. Keskin, a species endemic to Turkey, aiming to explore its potential applications in pharmacology. We assessed its phenolic and flavonoid content by employing ethyl acetate, methanol, and water as extraction solvents. The methanol extract demonstrated the highest concentrations of these compounds, with liquid chromatography-quadrupole time-of-flight tandem mass spectrometry (LC-MS-qTOF) analysis identifying a wide range of bioactive substances, such as derivatives of quercetin and myricetin. Antioxidant capacity was evaluated using 2,2-Diphenyl-1-picrylhydrazyl (DPPH), 2,2'-Azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) diammonium salt (ABTS), cupric-reducing antioxidant capacity (CUPRAC), ferric-reducing antioxidant power (FRAP), and phosphomolybdenum assays, with the methanol extract showing the most potent activity (DPPH: 892.22 mg Trolox equivalent (TE)/g; ABTS: 916.21 mg TE/g; CUPRAC: 1082.69 mg TE/g; FRAP: 915.05 mg TE/g). Enzyme inhibition assays highlighted the efficacy of P. istanbulicum extracts against key enzymes, with potential implications for managing Alzheimer's disease, hyperpigmentation, and type 2 diabetes. Cytotoxicity tests against various cancer cell lines showed notable activity, particularly with the aqueous extract on the HGC-27 cell line (IC50: 29.21 µg/mL), indicating potential for targeted anti-cancer therapy. Molecular docking and molecular dynamics simulations further supported the binding affinities of quercetin and myricetin derivatives to cancer-related proteins, suggesting significant therapeutic potential. This study underscores the value of P. istanbulicum as a source of bioactive compounds with applications in antioxidant, anti-cancer, and enzyme-inhibitory treatments.

The genus Polygonum: An updated comprehensive review of its ethnomedicinal, phytochemical, pharmacological activities, toxicology, and phytopharmaceutical formulation

Polygonum is a plant genus that includes annual and perennial species and is found at various temperatures, from northern temperate regions to tropical and subtropical areas. The genus Polygonum has been used for centuries for various disorders, including hypertension, intestinal and stomach pain, dysuria, jaundice, toothaches, skin allergies, hemorrhoids, cardiac disorders, kidney stones, hemostasis, hyperglycemia, and others. Various databases, including Google Scholar, Scifinder, ScienceDirect, PubMed, Scopus, ResearchGate, and Web of Science, were utilized to collect pertinent scientific literature data. According to bibliographic studies, the Polygonum genus possesses various compounds from different families, including phenolic acids (gallic acid, caffeic acid, quinic acid, p-coumaric acid, ferulic acid, protocatechuic acid, chlorogenic acid, and many other compounds), flavonoids (quercetin, catechin, epicatechin, quercitrin, kaempferol, myricetin, etc.), tannins, stilbenes (polydatin and resveratrol), terpenes (α-pinene, β-caryophyllene and β-caryophyllene oxide, bisabolene, β-farnesene, etc.), fatty acids (decanoic acid, lauric acid, linoleic acid, oleic acid, palmitic acid, stearic acid, dodecanoic acid), polysaccharides, and others. Various chemical and biological activities (in vitro and in vivo), such as antioxidant, antimicrobial, anticancer, antitumor, anti-inflammatory, antidiabetic, antiparasitic, hepatoprotective, neuropharmacological, gastroprotective, diuretic, antipyretic, and others, have been described in several biological studies involving this species. An updated summary of Polygonum species and their ethnomedicinal, phytochemical, toxicological, pharmacological, and phytopharmaceutical formulations is necessary. Considering the numerous potentialities of the Polygonum species and their wide-ranging use, it is extremely essential to provide knowledge by compiling the accessible literature to identify the topics of intense investigation and the main gaps to better design future studies. The objective of this review is to give readers a better understanding, greater comprehension, and in-depth knowledge of the genus Polygonum's traditional applications, phytochemistry, pharmacology, toxicological features, and galenic formulation. Several species of this genus have been detailed in this review, including those that were frequently used in traditional medicine (P. minus, P. aviculare, P. hydropiper, P. cuspidatum, and P. multiflorum) and many of the genus' therapeutic species, like P. equisetiforme, which do not get enough attention.