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The prevalence of psychiatric disorders namely depression, anxiety, and sleep disturbances has been increased worldwide, particularly during the COVID-19 pandemic. In this regard, the interest of recent investigations is moved toward phytomedicines and bioactive substances derived from natural sources. Although Tilia platyphyllos Scop. contains high amounts of phenolic compounds such as quercetin, kaempferol, and catechin, there is no study on the possible effects of its extract on psychological disorders. The present study was carried out to determine the antidepressant-like, anxiolytic, and sedative-hypnotic effects of the hydroethanolic extract of T. platyphyllos leaves using forced swimming test (FST), tail suspension test (TST), elevated plus maze test (EPMT), pentobarbital-induced loss of righting reflex test and open field test (OFT). Following the ethanolic extraction of T. platyphyllos leaves, the extraction yield was 14% and the total phenolic and total flavonoid contents were found to be 135.23 +/- 0.14 mg gallic acid equivalent/g dry extract and 19.02 +/- 0.03 mg rutin equivalent/g dry extract, respectively. Both FTS and TST revealed a significant antidepressant-like activity for the tested extract at 400 mg/kg compared to the control group. In addition, the anxiolytic activity of the extract was proven through OFT and EPMT in the same dose. Finally, T. platyphyllos extract at 200 mg/kg and 400 mg/kg significantly increased the sleeping time when compared to the control group reflecting its potential hypnotic activity. Co-administration of T. platyphyllos extract at 400 mg/kg and flumazenil as the GABA-A receptor antagonist decreased the sleeping time but the observed effect was not statistically significant. Therefore, we cannot completely rule out the GABA-A receptor's involvement in the hypnotic activity of the extract. The biological results presented here led us to conclude that T. platyphyllos extract can be a prominent source of antidepressant, anxiolytic and hypnotic agents. Probably, the main phenolic compounds of T. platyphyllos such as quercetin, kaempferol, and catechin are involved in the observed effects. However, there is still a great need for additional investigations on the exact mechanisms.Copyright © 2022, Iranian Association of Pharmaceutical Scientists. All rights reserved.
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Global suffering from COVID-19 has necessitated augmenting the immunity systems of humans through consumption of macro-micro-nutrients and antioxidant-enriched fortified foods. In this article, fortifications of popular bakery products, viz. biscuits, cookies, have been reviewed, encompassing the novel fortifying ingredients and innovative methods employed with an emphasis on the overall enrichment in the final product quality. A few notable features concerning novel fortified biscuit and fortified cookie have been decisively summarized. Wheat flour blended with 40% sesame-cake flour resulted in a fortified biscuit possessing higher protein (16.6%), crude fat (16.95%), and dietary fiber (8.2%) with acceptable sensory characteristics. About 9% toting up of chicken-eggshell dried-powder could result in high Ca content in biscuits with customary changes in texture and sensory properties. A remarkable 5% addition of bee pollen to wheat flour appreciably improved the nutrient compositions (carbohydrate 65.18%, protein 7.32%, and total dietary-fiber 1.47%) along with high polyphenol and antioxidant potentials. Notably, mixing fish fillet protein concentrate with wheat flour could yield enhanced nutritional content (protein 14.63-19.52%, fat 16.2-16.5%), as well as augmented amino acids. Remarkably, wheat flour fortified with fermented jack bean flour resulted in an overall fortified biscuit with substantial carbohydrate, crude protein, fat, fiber, ash, and appreciable macro-micro mineral contents and sensory characteristics. Innovative fortified cookies were made by blending wheat flour or Brewer's spent grain flour with one or more ingredients, e.g. full fat soya, mushroom, cardamom powder, moringa leaves, coconut, sweet potato flour rendering amplified values of nutrients, superior physical properties, increased mineral and flavonoid contents and organoleptic qualities.Copyright © 2023 Bentham Science Publishers.
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The coronavirus disease 2019 (COVID-19) pandemic has caused more than six million deaths worldwide since 2019. Although vaccines are available, novel variants of coronavirus are expected to appear continuously, and there is a need for a more effective remedy for coronavirus disease. In this report, we isolated eupatin from Inula japonica flowers and showed that it inhibits the coronavirus 3 chymotrypsin-like (3CL) protease as well as viral replication. We showed that eupatin treatment inhibits SARS-CoV-2 3CL-protease, and computational modeling demonstrated that it interacts with key residues of 3CL-protease. Further, the treatment decreased the number of plaques formed by human coronavirus OC43 (HCoV-OC43) infection and decreased viral protein and RNA levels in the media. These results indicate that eupatin inhibits coronavirus replication.
Subject(s)
COVID-19 , Humans , SARS-CoV-2 , Peptide Hydrolases , Protease Inhibitors/pharmacology , Protease Inhibitors/chemistry , Flavonoids/pharmacology , Endopeptidases , Antiviral Agents/pharmacologyABSTRACT
The main protease (Mpro) of SARS-CoV-2, a cysteine protease that plays a key role in generating the active proteins essential for coronavirus replication, is a validated drug target for treating COVID-19. The structure of Mpro has been elucidated by macromolecular crystallography, but owing to its conformational flexibility, finding effective inhibitory ligands was challenging. Screening libraries of ligands as part of EXaSCale smArt pLatform Against paThogEns (ExScalate4CoV) yielded several potential drug molecules that inhibit SARS-CoV-2 replication in vitro. We solved the crystal structures of Mpro in complex with repurposed drugs like myricetin, a natural flavonoid, and MG-132, a synthetic peptide aldehyde. We found that both inhibitors covalently bind the catalytic cysteine. Notably, myricetin has an unexpected binding mode, showing an inverted orientation with respect to that of the flavonoid baicalein. Moreover, the crystallographic model validates the docking pose suggested by molecular dynamics experiments. The mechanism of MG-132 activity against SARS-CoV-2 Mpro was elucidated by comparison of apo and inhibitor-bound crystals, showing that regardless of the redox state of the environment and the crystalline symmetry, this inhibitor binds covalently to Cys145 with a well-preserved binding pose that extends along the whole substrate binding site. MG-132 also fits well into the catalytic pocket of human cathepsin L, as shown by computational docking, suggesting that it might represent a good start to developing dual-targeting drugs against COVID-19. © 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.
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Pulmonary aspergillosis (PA) is a category of respiratory illnesses that significantly impacts the lives of immunocompromised individuals. However, new classifications of secondary infections like influenza associated aspergillosis (IAA) and COVID-19 associated pulmonary aspergillosis (CAPA) only exacerbate matters by expanding the demographic beyond the immunocompromised. Meanwhile anti-fungal resistant strains of Aspergillus are causing current treatments to act less effectively. Symptoms can range from mild (difficulty breathing, and expectoration of blood) to severe (multi organ failure, and neurological disease). Millions are affected yearly, and mortality rates range from 20-90% making it imperative to develop novel medicines to curtail this evolving group of diseases. Chalcones and imidazoles are current antifungal pharmacophores used to treat PA. Chalcones are a group of plant-derived flavonoids that have a variety of pharmacological effects, such as, antibacterial, anticancer, antimicrobial, and anti-inflammatory activities. Imidazoles are another class of drug that possess antibacterial, antiprotozoal, and anthelmintic activities. The increase in antifungal resistant Aspergillus and Candida species make it imperative for us to synthesize novel pharmacophores for therapeutic use. Our objective was to synthesize a chalcone and imidazole into a single pharmacophore and to evaluate its effectiveness against three different fungi from the Aspergillus or Candida species. The chalcones were synthesized via the Claisen-Schmidt aldol condensation of 4-(1H-Imizadol-1-yl) benzaldehyde with various substituted acetophenones using aqueous sodium hydroxide in methanol. The anti-fungal activity of the synthesized chalcones were evaluated via a welldiffusion assay against Aspergillus fumigatus, Aspergillus niger, and Candida albicans. The data obtained suggests that chalcone derivatives with electron-withdrawing substituents are moderately effective against Aspergillus and has the potential for further optimization as a treatment for pulmonary aspergillosis. This project was supported by grants from the National Institutes of Health (NIH), National Institute of General Medicine Sciences (NIGMS), IDeA Networks of Biomedical Research Excellence (INBRE), Award number: P20GM103466. The content is solely the responsibility of the authors and do not necessarily represent the official views of the NIH.Copyright © 2023 The American Society for Biochemistry and Molecular Biology, Inc.
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Purpose of study Proposal for an oral (or if required, parenteral) COVID-19 vaccination based upon this described technology. Investigational theory under study for the past 9 months of COVID-19 growing season. Coronavirus can attack and infect plant species. It was found that SARS-CoV-2 can infect various plant species. Others have found plants, for example tobacco as a good growth medium for Coronavirus and SARS-CoV-2. This current study has found various plants species infected with SARS-CoV-2 by rPCR. As the plants were located beside a well used hiking trail for humans, and were infected along the trail including various species with SARS-CoV-2, hypothesized that human airborne contact had caused infection in the bordering plants. Humans were observed to be coughing while walking on the trail, and were not wearing masks. The plant leaves developed small circular colonies of the virus, which became self-limited at several millimeters in diameter. All of the plants were clear of these lesions before the COVID-19 Pandemic. The plants 'immune' system produced antiviral agents, including lectins which limited the growth of the colonies and prevent death of the leaf and whole plant. The fungal cultures of the 'spots' were negative. The rPCR of all spots tested in the present series was positive for SARS-CoV-2. Hypothesis, that self-augmentation of the virus occurred by the natural culturing in plant leaves that produce antiviral agents as part of their 'immune system.' Hypothesis, a symbiotic type relationship developed between the plant using its chemical immune system, and the virus allowed to replicate in an augmented fashion to allow both the virus and the host to survive and grow. As the top candidates for the oral vaccine are nontoxic, hypothesis involves the maceration of the infected leaves, mixing with a nontoxic adjuvant and flavoring to promote assimilation and palatability, with the proposed route of entry being mastication, thus exposing the oral-nasal mucosa to the vaccine, with the probable best of immunity to usual exposure to the SARS-CoV-2 virus, that is the oral-nasal mucosal and upper airway route. As many types of animals are now infected with SARS-CoV-2, it is further hypothesized that this oral vaccine could also be mass produced to add to various animals by feedstock and oral route. Methods used Hypotheses formed through observations. Testing of observations by pPCR, viral cell culture, fungal culture, light and electron microscopy. Summary of results pPCR SARS-CoV-2 positive, cell culture 'lysis experiment' positive, EM and light microscopy positive, fungal culture negative. Conclusions TABLE OF HYPOTHESES AND STUDY RESULTS (HYPOTHETICAL, OBSERVED, PROVEN) 1. The first hypothesis that the virus is attenuated by the plant, using its innate chemical immune system. Similarly, Pasteur used chemical such as phenol to attenuate viruses for wome of the first successful vaccines. Observed. 2. Hypothesis, the plants 'immune' system produced antiviral agents, including lectins, flavonoids, and others, which limited the growth of the colonies and prevent death of the leaf and whole plant. Proven. 3. Hypothesis is that the nontoxic plants, such as Vine Maple sp.(Acer cincinatum), could be used to produce and oral plant attenuated vaccine. Hypothesis. 4. Hypothesis involves the maceration of the infected leaves, mixing with a nontoxic adjuvant and flavoring to promote assimilation and palatability, with the proposed route of entry being mastication, thus exposing the oral-nasal mucosa to the vaccine, with the probable best of immunity to usual exposure to the SARS-CoV-2 virus, that is the oral-nasal mucosa, upper airway. (Figure Presented).
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Background: Viral infections pose some of the most serious human health concerns worldwide. The infections caused by several viruses, including coronavirus, hepatitis virus, and human immunodeficiency virus, are difficult to treat. Method(s): This review details the findings of a literature search performed on the antiviral properties of luteolin. The keywords engaged in the search are "virus" along with "luteolin." Results: Luteolin possesses antiviral properties, which is the basis for the current review. It is an important natural flavonoid with numerous important biological properties, including anti-inflammatory, immune regulatory, and antitumor effects, and is found in vegetables, fruits, and several medicinal plants. Recent studies have revealed that many traditional Chinese medicines that contain luteolin inhibit the replication of coronaviruses. Conclusion(s): Luteolin effectively inhibits the replication of coronavirus, influenza virus, enterovirus, rotavirus, herpes virus, and respiratory syncytial virus, among others. In particular, it prevents viral infection by improving the body's nonspecific immunity and antioxidation capacity and inhibiting many pathways related to virus infection and replication, such as MAPK, PI3K-AKT, TLR4/8, NF-kappaB, Nrf-2/hemeoxygenase-1, and others. It also regulates the expression of some receptors and factors, including hepatocyte nuclear factor 4alpha, p53, NLRP3, TNF-alpha, and interleukins, thereby interfering with the replication of viruses in cells. Luteolin also promotes the repair of damaged cells induced by proinflammatory factors by regulating the expression of inflammatory molecules. The overall effect of these processes is the reduction in viral replication and, consequently, the viral load. This review summarizes the antiviral effect of luteolin and the mechanism underlying this property.Copyright © The Author(s) 2023.
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Flavonoids are vital candidates to fight against a wide range of pathogenic microbial infections. Due to their therapeutic potential, many flavonoids from the herbs of traditional medicine systems are now being evaluated as lead compounds to develop potential antimicrobial hits. The emergence of SARS-CoV-2 caused one of the deadliest pandemics that has ever been known to mankind. To date, more than 600 million confirmed cases of SARS-CoV2 infection have been reported worldwide. Situations are worse due to the unavailability of therapeutics to combat the viral disease. Thus, there is an urgent need to develop drugs against SARS-CoV2 and its emerging variants. Here, we have carried out a detailed mechanistic analysis of the antiviral efficacy of flavonoids in terms of their potential targets and structural feature required for exerting their antiviral activity. A catalog of various promising flavonoid compounds has been shown to elicit inhibitory effects against SARS-CoV and MERS-CoV proteases. However, they act in the high-micromolar regime. Thus a proper lead-optimization against the various proteases of SARS-CoV2 can lead to high-affinity SARS-CoV2 protease inhibitors. To enable lead optimization, a quantitative structure-activity relationship (QSAR) analysis has been developed for the flavonoids that have shown antiviral activity against viral proteases of SARS-CoV and MERS-CoV. High sequence similarities between coronavirus proteases enable the applicability of the developed QSAR to SARS-CoV2 proteases inhibitor screening. The detailed mechanistic analysis of the antiviral flavonoids and the developed QSAR models is a step forward toward the development of flavonoid-based therapeutics or supplements to fight against COVID-19.
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Tanacetum parthenium (L.) Schultz-Bip (feverfew) is among the important medicinal and aromatic plants due to its tryptophan (TRP), serotonin (SER), melatonin (MEL), and parthenolide (PRT) content. In recent studies, have reported TRP, MEL, and (PRT) are effective in the treatment of COVID-19, thus increasing the popularity of feverfew, which is rich in these valuable molecules. This study investigated the possible effects of exogenous foliar applications of methyl jasmonate (MeJA 0.5 mM) and TRP (20 mM) on plant TRP, SER, MEL, and PRT levels. During the pre-flowering period, endogenous TRP was measured as 128.9 mu g/mL and endogenous PRT as 1.53% mg/g in the leaves of the control group. During the flowering period, the MEL level was measured as 1.38 mu g/mL in the leaves of the TRP application group. In addition, in the pre-flowering period, MeJA-induced increases of 94.51% were determined in DPPH antioxidant activity and the total flavonoid content was 38.76 mg QE/g, whereas the highest total phenolic content of 51.63 mg GAE/g was found in flower samples of the control group. However, neither the developmental periods nor the treatments significantly affected the total phenolic content in the leaves.
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Background: Plants, with their rich phytochemical treasury, are one of the main sources of drug development. However, a randomized search on plant sources for the discovery of phyto-chemicals with specified pharmacological activity is expensive and tedious. Therefore, it is logical to constrain the sources to increase success. In the recent four decades, the importance of traditional information has been recognized by the scientific community. Consequently, interest in field sur-veys for the documentation of traditional worldwide medicines has significantly increased. Method(s): Infectious diseases induced by pathogenic bacteria, fungi, or viruses have been one of the most common health problems for the public, for which traditional remedies have been practiced. Since laypeople could not distinguish the microbial origin of the infection, the remedies used for treatment could not be delineated. The aim of this study was first to search the plants used in Turkish folk medicine for such infectious diseases. The second step was to find scientific evidence in the online databases for the frequently quoted plants whether they may have potential activity against virus replication. Result(s): A reference survey on the most frequently quoted plants revealed that 16 out of 17 were shown to possess virucide or inhibitory effects on the replication of various viruses. Conclusion(s): Since each virus type may have a different viral replication pattern, further detailed in-vestigations should be carried out to reveal their exact antiviral potentials.Copyright © 2023 Bentham Science Publishers.
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Naringin is a flavonoid isolated from different citrus fruits like Grapefruit, Orange, Pomelo, Lemon, etc, which are commonly called local fruit. Naringin is found in the white spongy portion of citrus peel. Its content varies from 0.65 mg/gm in the mandarin peel to 14.40mg/gm in the grapefruit peel. Naringin is metabolized to the flavanone naringenin by the enzyme Naringinase present in the liver. It can be analyzed by using various analytical techniques such as HPLC, TLC, UV, HPTLC, mass spectroscopy, Liquid chromatography, chiral chromatography and LC/Mass spectroscopy. Naringin can act as an antioxidant and scavenge free radicals. Naringin mainly focuses on in-vitro and in-vivo animal studies showing its beneficial effects on cardioprotective, antioxidant, anti-inflammatory, antimicrobial, hypolipemiant, neurological, thermogenic, pulmonary disorders and antidiabetic. Naringin is also treated as a most promising treatment strategy against Covid-19 due to its antiviral and anti-inflammatory effects. Recently, Naringin has proven its activity in various molecular docking studies. Naringin keeps the body healthy against various illnesses and major lifestyle disorders.Copyright All © 2023 are reserved by International Journal of Pharmaceutical Sciences and Research.
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Herbal plant extracts or purified phytocomponents have been extensively used to treat several diseases since ancient times. The Indian Ayurvedic system and Chinese traditional medicines have documented the medicinal properties of important herbs. In Ayurveda, the polyherbal formulation is known to exhibit better therapeutic efficacy compared to a single herb. This review focuses on six key ayurvedic herbal plants namely, Tinospora cordifolia, Withania somnifera, Glycyrrhiza glabra/Licorice, Zingiber officinale, Emblica officinalis and Ocimum sanctum. These plants possess specific phytocomponents that aid them in fighting infections and keeping body healthy and stress-free. Plants were selected due to their reported antimicrobial and anti-inflammatory effects in several diseases and effectiveness in controlling viral pathogenesis. An ad-vanced literature search was carried out using Pubmed and google scholar. Result(s): These medicinal plants are known to exhibit several protective features against various diseases or infections. Here we have particularly emphasized on antioxidant, anti-inflammatory, anti-microbial and immunomodulatory properties which are common in these six plants. Recent literature analysis has revealed Ashwagandha to be protective for Covid-19 too. The formulation from such herbs can exhibit synergism and hence better effectiveness against infection and related dis-eases. The importance of these medicinal herbs becomes highly prominent as it maintains the har-monious balance by way of boosting the immunity in a human body. Further, greater mechanistic analyses are required to prove their efficacy in fighting infectious diseases like Covid-19. It opens the arena for in-depth research of identifying and isolating the active components from these herbs and evaluating their potency to inhibit viral infections as polyherbal formulations.Copyright © 2023 Bentham Science Publishers.
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The dried fruit of Amomum tsao-ko Crevost & Lemarie, a perennial herb of Cardamom in Zingiberaceae, has been widely used in food and as a folk medicine. It is used not only as an important food additive and spice for removing peculiar smell and improving taste, but also as a traditional Chinese medicine with significant efficacy in treating many kinds of disorders. Based on the high edible and medicinal value, large amounts of investigation have been reported for A. tsaoko in the past several years. This review specifically summarises its quality control, toxicology and clinical application, about which no literature had systematically reviewed, based on our best acknowledge. The current quality control of A. tsaoko is based on the content of volatile oil, which should be no less than 1.4% according to the Pharmacopoeia of the People's Republic of China (2020 edition), while a more possible Q-Markers should be developed to focus on either a specific bioactive ingredient or a component correlated with a certain clinical efficacy. Toxicity research suggests that A. tsaoko actually belongs to the non-toxic substance, although citral and 1,8-cineole, two main components of A. tsaoko, is hepatotoxic for the former and displays low acute toxicity and sub-chronic oral toxicity for the latter, but no obviously accumulative toxicity has so far been discovered for A. tsaoko. In clinical practice, A. tsaoko is often used in treatment of dampness/cold resistance, malaria, vomiting, fullness and epigastric distension across additional disorders, such as SARS, COVID-19 and hepatitis.Copyright © 2022 The Author(s)
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SARS-CoV-2 can naturally grow and spread from bats or rodents. There are different ways to protect oneself from such viruses. Firstly, a thorough diagnosis by different methods of testing, isolating the infected, and phased interaction with people are advanced, societal-level mitigative efforts that could be implemented. Another method of protection is to eat healthy food. Spices contain flavonoids, acetaminophen, and pseudoephedrine;these ingredients are natural and non-steroidal anti-inflammatory agents and cause no harm. Meat that is mildly spiced, and eggs are also good to boost the immune system. Thirdly, herd immunity is a way to protect people from the virus. Around 50,000 infections in a 250-mile radius could help to develop herd immunity, but this is only a prediction. One should visit his physician if he has a high temperature or cough. SARS-CoV-2, which causes COVID-19, is a new viral strain containing genetic sequences from HIV and malaria in addition to the SARS virus. COVID-19 also targets the ACE2 receptor, which is present in the lungs, heart, and kidneys. Remdesivir seems to be lowering the viral growth in some clinical studies, and in some conditions, it is still understudied and ineffective to eradicate the virus. Recent reports predicted that around 15 COVID-19 mutants have arisen in the last 5 months. The new mutants could be more active or less active, or even drug-resistant. And lastly, new vaccines or drugs must be discovered or invented in BSL3 labs. COVID-19 can be overcome by following mitigation, prophylaxis, and treatment.Copyright © 2021 Bentham Science Publishers.
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Coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has spread worldwide. There is no effective medication for COVID-19 as of now, so it would be good to take preventive measures that not only boost our immunity but also fight against infections. The use of traditional Chinese medicine in China to treat COVID-19 patients sets the prototype demonstrating that traditional medicines can contribute to prevention and treatment successfully. In India, the Ministry of AYUSH (Ayurveda, Yoga, Unani, Siddha, Homeop-athy) released a self-care advisory during the COVID-19 crisis as a preventive aspect. This review article discusses the therapeutic potential and clinical relevance of some herbs [(Tulsi (Ocimum sanctum), Haridra (Curcuma longa), Tvaka (Cinnamon), Maricha (Piper longum), Shunthi (Zingi-ber officinale), Munakka (Dried grapes), Lavang (Syzigiumaromaticum), Pudina (Mentha arvensis), and Ajwain (Trachyspermum ammi)] advised by AUYSH to take during COVID-19 infection. They are effective in COVID-19 management, therefore, authors have discussed their detailed traditional uses as therapeutics and spotted scientific insight and clinical significance of the herbs mentioned above along with their mechanistic viewpoint, adequately, on a single platform. Provided information could be a treasure to open up a new research arena on natural products to manage human health crises effectively, caused not only by COVID-19 but also by other infectious diseases.Copyright © 2023 Bentham Science Publishers.
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Coronavirus disease 2019 (COVID-19), named by WHO, is a real public health disaster of the third millennium. This highly contagious viral disease has infected the world population and is now a global pandemic. This acute respiratory distress syndrome (ARDS) has severe complica-tions like pneumonitis, respiratory failure, shock, multiorgan failure, and death. Well-defined FDA-approved synthetic is not yet available. Case management strategies like lockdown, use of masks and sanitizers, social distancing, and repurposing of antiviral drugs were initially undertaken to cope with this pandemic. Different broad-spectrum antiviral drugs are being repurposed as one of the treatment modalities. The global vaccination programme with the newly launched COVID-19 vac-cines, Covishield, covaxin, sputnik V, etc., is an ongoing process. Simultaneously, significant research is being carried out in search of natural antivirals and evaluating the potency of food bioac-tives to aid naturistic protection against the coronavirus. This mini-review has compiled the latest updates on the screening and evidence-based mechanistic evaluation of phytochemicals and food bioactives as non-pharmacological adjuvant aid in COVID pandemics.Copyright © 2023 Bentham Science Publishers.
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Fruit, vegetables, and green tea contain quercetin (a flavonoid). Some of the diet's most signifi-cant sources of quercetin are apples, onions, tomatoes, broccoli, and green tea. Antioxidant, anticancer, anti-inflammatory, antimicrobial, antibacterial, and anti-viral effects have been studied of quercetin. The severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) virus, ribonucleic acid (RNA) polymer-ase, and other essential viral life-cycle enzymes are all prevented from entering the body by quercetin. Despite extensive in vitro and in vivo investigations on the immune-modulating effects of quercetin and vitamin C treatment. 3-methyl-quercetin has been shown to bind to essential proteins necessary to convert minus-strand RNA into positive-strand RNAs, preventing the replication of viral RNA in the cytoplasm. Quercetin has been identified as a potential SARS-CoV-2 3C-like protease (3CLpro) suppressor in recent molecular docking studies and in silico assessment of herbal medicines. It has been demonstrated that quercetin increases the expression of heme oxygenase-1 through the nuclear factor erythroid-related factor 2 (Nrf2) signal network. Inhibition of heme oxygenase-1 may increase bilirubin synthesis, an endoge-nous antioxidant that defends cells. When human gingival fibroblast (HGF) cells were exposed to lipo-polysaccharide (LPS), inflammatory cytokine production was inhibited. The magnesium (Mg+2) cation complexation improves quercetin free radical scavenging capacity, preventing oxidant loss and cell death. The main objective of this paper is to provide an overview of the pharmacological effects of quercetin, its protective role against SARS-CoV-2 infection, and any potential molecular processes.Copyright © 2022 Bentham Science Publishers.
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As of 1st of September 2020, the COVID-19 pandemic has reached an unprecedented level of more than 25 million cases with more than 850,000 deaths. Moreover, all the drug candidates are still undergoing testing in clinical trials. In this regard, a breakthrough in drug design is neces-sary. One strategy to devise lead compounds is leveraging natural products as a lead source. Sever-al companies and research institutes are currently developing anti-SARS-CoV-2 lead from natural products. Flavonoids are well known as a class of antiviral compounds library. The objective of this research is to employ virtual screening methods for obtaining the best lead compounds from the library of flavonoid compounds. This research employed virtual screening methods that com-prised of downloading the protein and lead compound structures, QSAR analysis prediction, itera-tions of molecular docking simulation, and ADME-TOX simulation for toxicity prediction. The QSAR analysis found that the tested compounds have broad-spectrum antiviral activity, and some of them exhibit specific binding to the 3C-like Protease of the Coronavirus. Moreover, juglanin was found as the compound with the fittest binding with the Protease enzyme of SARS-CoV-2. Al-though most of the tested compounds are deemed toxic by the ADME-Tox test, further research should be conducted to comprehend the most feasible strategy to deliver the drug to the infected lung cells. The juglanin compound is selected as the fittest candidate as the SARS-CoV-2 lead compound in the tested flavonoid samples. However, further research should be conducted to observe the lead delivery method to the cell.Copyright © 2021 Bentham Science Publishers.
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In 2012, a coronavirus was isolated from a patient with severe pneumonia. This beta-coronavirus, which appeared in Saudi Arabia, was named Middle East Respiratory Syndrome Coro-navirus (MERS-CoV). MERS-CoV is the sixth identified coronavirus that has the ability to infect humans. The Middle East respiratory syndrome-coronavirus (MERS-CoV) is a zoonotic pathogen transmitted between animals and humans. To date, MERS-CoV is responsible for an epidemic that is still ongoing, but limited to the Arabian Peninsula, with a total number of more than 2000 cases identified and a mortality rate of around 35%. The largest outbreaks of human-to-human transmission were reported in Jeddah in 2014 and South Korea in 2015. This infection causes a high mortality rate and no vaccine or medical countermeasures are currently available. Currently, no specific treatment or vaccine is available against this virus. The current challenge is to contain the epidemic and continue research efforts to develop a vaccine and a treatment. Certain flavonoids inhibit the replication of viral RNA and have therapeutic potential against viruses and bacteria. Therefore, it is suggested that flavonoids with these characteristics can be used as models to develop potent inhibi-tors of MERS-CoV. This work reviews current knowledge and provides an update on MERS-CoV and MERS-CoV 3Clpro virology, epidemiology, clinical features, and the use of flavonoids as potential inhibitors and therapeutic agents for MERS-CoV, and MERS-CoV 3Clpro. This review tries to elucidate the structure-activity relationships (SAR) of varied polyphenols against MERS-CoV 3C-like protease (3Clpro).Copyright © 2022 Bentham Science Publishers.
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Mimusops elengi Linn. Secondary metabolites of flavonoids, phenolic acids, coumarin classes and stilbene were identified by UPLC/ESI-QTOF-HRMS/MS technique with negative ion detection. Major Mimusops elengi flavonoids included Myricitrin, Myricetin, and Kaempferol-3-O-alpha-L-rhamnoside. The most abundant Coumarin and phenolic acids detected in the chromatogram included aesculin and quinic acid respectively. Down regulation of NLRP3 inflammasome activation inhibits the severe inflammatory responses caused by virus infection. Studying in silicobinding affinity of flavonoids, coumarins and phenolic acid in M. elengi leaves extract against the ADP binding site of NLRP3 protein (PDB code: 6NPY) demonstrated that investigated compounds have docking scores ranged from −6.20 to −12.30 kcal/mol. The best score was achieved by kaempferol-3-O-(6-p-coumaroyl) -glucoside(Compound 9) followed by aesculin (Compound 25) while Quinic acid (Compound 20) showed the lowest affinity toward ADP-binding site of NLRP3. © 2023 The Authors