Nature has generously offered life-saving therapies to mankind by providing evolutionarily optimized drug-like entities in the form of natural products. These splendid gifts of nature have served as most suitable candidates for anti-cancer drug discovery due to their pleiotropic activity on target molecules. This review aims to provide an update on the natural sources and bioactivities of such gifts from nature, salvianolic acid A & B, which are major bioactive constituents of a traditional Chinses medicinal herb, Salvia miltiorrhiza. Salvianolic acid A & B have been reported to owe anti-cancer, anti-inflammatory and cardioprotective activities. Currently salvianolic acids have been emerged as potent anti-cancer molecules. Salvianolic acid A & B fight cancer progression by prompting apoptosis, halting cell cycle and adjourning metastasis by targeting multiple deregulated signaling networks of cancer. Moreover, salvianolic acid A & B display potency towards sensitizing cancer cells to chemo-drugs. The review purposes that salvianolic acid A & B supply a novel opportunity for drug discovery but further experimentation is mandatory to embellish the knowledge of their pharmacological usage and to access their toxicological limits in order to establish these compounds as potential multitarget future drugs.
Nature as an infinite treasure of chemotypes and pharmacophores will continue to play an imperative role in the drug discovery. Natural products (NPs) such as plant and fungal metabolites have emerged as leads in drug discovery during recent years due to their efficacy, safety and selectivity. The current review summarizes natural sources as well as pharmacological potential of hispolon which is a major constituent of traditional medicinal mushroom
Phellinus linteus
. The study aims to update the scientific community about recent developments of hispolon in the arena of natural drugs by providing insights into its present status in therapeutic pursuits. Hispolon, a polyphenol has been reported to possess anticancer, antidiabetic, antioxidant, antiviral and anti-inflammatory activities. It fights against cancer
via
induction of apoptosis, halting cell cycle and inhibition of metastasis by targeting various cellular signaling pathways including PI3K/Akt, MAPK and NF-κB. The current review proposes that hispolon provides a novel opportunity for pharmacological applications and its styrylpyrone carbon skeleton might serve as an attractive scaffold for drug development. However, future researches are recommended to assess bioavailability, toxicological limits, pharmacokinetic and pharmacodynamic profiles of hispolon, in order to establish its potential as a potent multi-targeted drug in the near future.
Background:
Coronavirus Disease-2019 belongs to the family of viruses which cause a serious pneumonia
along with fever, breathing issues and infection of lungs for the first time in China and later spread worldwide.
Objective:
Several studies and clinical trials have been conducted to identify potential drugs and vaccines for Coronavirus
Disease-2019. The present study listed natural secondary metabolites identified from plant sources with antiviral
properties and could be safer and tolerable treatment for Coronavirus Disease-2019.
Methods:
A comprehensive search on the reported studies was conducted using different search engine such as Google
scholar, SciFinder, Sciencedirect, Medline PubMed, and Scopus for the collection of research articles based on plantderived secondary metabolites, herbal extracts, and traditional medicine for coronavirus infections.
Results:
Status of COVID-19 worldwide and information of important molecular targets involved in COVID-19 is
described and through literature search, is highlighted that numerous plant species and their extracts possess antiviral
properties and studied with respect to Coronavirus treatments. Chemical information, plant source, test system type with
mechanism of action for each secondary metabolite is also mentioned in this review paper.
Conclusion:
The present review has listed plants that have presented antiviral potential in the previous coronavirus
pandemics and their secondary metabolites which could be significant for the development of novel and a safer drug
which could prevent and cure coronavirus infection worldwide.
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