ABSTRACT
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.
ABSTRACT
An outbreak of pneumonia occurred on December 2019 in Wuhan, China, which caused a serious public health emergency by spreading around the globe. Globally, natural products are being focused on more than synthetic ones. So, keeping that in view, the current study was conducted to discover potential antiviral compounds from Allium sativum. Twenty-five phytocompounds of this plant were selected from the literature and databases including 3-(Allylsulphinyl)-L-alanine, Allicin, Diallyl sulfide, Diallyl disulfide, Diallyl trisulfide, Glutathione, L-Cysteine, S-allyl-mercapto-glutathione, Quercetin, Myricetin, Thiocysteine, Gamma-glutamyl-Lcysteine, Gamma-glutamylallyl-cysteine, Fructan, Lauricacid, Linoleicacid, Allixin, Ajoene, Diazinon Kaempferol, Levamisole, Caffeicacid, Ethyl linoleate, Scutellarein, and S-allylcysteine methyl-ester. Virtual screening of these selected ligands was carried out against drug target 3CL protease by CB-dock. Pharmacokinetic and pharmacodynamic properties defined the final destiny of compounds as drug or non-drug molecules. The best five compounds screened were Allicin, Diallyl Sulfide, Diallyl Disulfide, Diallyl Trisulfide, Ajoene, and Levamisole, which showed themselves as hit compounds. Further refining by screening filters represented Levamisole as a lead compound. All the interaction visualization analysis studies were performed using the PyMol molecular visualization tool and LigPlot+. Conclusively, Levamisole was screened as a likely antiviral compound which might be a drug candidate to treat SARS-CoV-2 in the future. Nevertheless, further research needs to be carried out to study their potential medicinal use.
ABSTRACT
Mitigation of the activity of the main protease (Mpro) and papain-like protease (PLpro) of SARS CoV-2 has direct implications in combating the ongoing deadly COVID-19 pandemic. The active site of these proteases contains cysteine thiols which are covalently modified by the sulfur drugs such as ebselen and disulfiram. The natural product of Allium contains several reactive sulfur compounds that may covalently modify the active site cysteine thiols of coronavirus proteases. The report has assessed the binding affinity of the 52 different sulfur compounds of Allium against both Mpro and PLpro of coronavirus by conventional docking methods. Three of the top six compounds have demonstrated high affinity for both the proteases, namely, E-ajoene (S3), S-(3-pentanyl)-L-cysteine-sulfoxide (S49), and 1-propenyl allyl thiosulfinate (S14). The reactive sulfur compounds E-ajoene and 1-propenyl allyl thiosulfinate were subjected to the calculation of energetics of the putative reactions and covalent docking studies. The results indicate they covalently modify the active site cysteine thiols of the proteases through S-thioallylation, S-thioallyl sulfinyl propenylation, and S-thiopropenylation. The diversity of covalent modifications, high affinity for both the proteases and sulfur-mediated hydrogen bonds at the active site indicate that E-ajoene is a potential dual protease targeting covalent inhibitor of SARS CoV-2.
ABSTRACT
In recent years, it has been reported that many herbal plants contain antiviral agents which combat a human disease that is caused by pathogenic viruses. The natural products which are obtained from plants as antiviral agents against viruses have gone through researches to check the efficacy and potentials of the herbal products in the prevention of viral disorders. On the basis of randomized controlled studies and in-vivo studies, and in-vitro studies, some agents are utilized all across the globe. Progressively numerous studies on therapy of antivirals have been increased. Though, efficacy remains disputable for antiviral drugs that are employed for viral disorders. The viral diseases are challenging for the health of people around the world cause significant increase in mortality and enhance crises. There are many synthetic antiviral drugs that have a large number of side effects and have narrow therapeutic window range, while in the other hand herbal formulations have minimized side effects. The advantages of herbal formulation over synthetic drugs encourage us to devise and expand new herbal moieties against the emerging viral infections. The medicinal plants contain phytochemicals that have antiviral properties. In this paper, the activity of antiviral agents from medicinal plants which have importance in Ayurveda, are discussed along with their source.