Bactericidal activity of some arginine based biodegradable polymers-PEURs (poly (ester urethane)s) and PEUs (poly (ester urea)s) with low cytotoxicity was studied in in vitro experiments. Various bacterial str...Bactericidal activity of some arginine based biodegradable polymers-PEURs (poly (ester urethane)s) and PEUs (poly (ester urea)s) with low cytotoxicity was studied in in vitro experiments. Various bacterial strains both Gram-positive and Gram-negative were used to explore the bactericidal activity of the cationic polymers. As the test objects, the following microorganisms were used: Bacillus subtilis, Staphylococcus aureus, Mycobacterium album, Pseudomonas fluorescens, Escherichia coli, Actinomyces griseus and Aspergillus niger. The obtained results showed that the new cationic polymers suppressed the growth of the studied microorganisms and the bactericidal activity of the tested cationic polymers strongly depending on their chemical structure.展开更多
At present,a variety of vaccines have been approved,and existing antiviral drugs are being tested to find an effective treatment for coronavirus disease 2019(COVID-19).However,no standardized treatment has yet been ap...At present,a variety of vaccines have been approved,and existing antiviral drugs are being tested to find an effective treatment for coronavirus disease 2019(COVID-19).However,no standardized treatment has yet been approved by the World Health Organization.The virally encoded chymotrypsin-like protease(3CL^(pro))from severe acute respiratory syndrome coronavirus 2(SARS-CoV-2),which facilitates the replication of SARS-CoV in the host cells,is one potential pharmacological target for the development of antiSARS drugs.Online search engines,such as Web of Science,Google Scholar,Scopus and PubMed,were used to retrieve data on the traditional uses of medicinal plants and their inhibitory effects against the SARS-CoV 3CL^(pro).Various pure compounds,including polyphenols,terpenoids,chalcones,alkaloids,biflavonoids,flavanones,anthraquinones and glycosides,have shown potent inhibition of SARS-CoV-2 3CL^(pro) activity with 50% inhibitory concentration(IC_(50))values ranging from 2-44μg/mL.Interestingly,most of these active compounds,including xanthoangelol E(isolated from Angelica keiskei),dieckol 1(isolated from Ecklonia cava),amentoflavone(isolated from Torreya nucifera),celastrol,pristimerin,tingenone and iguesterin(isolated from Tripterygium regelii),tannic acid(isolated from Camellia sinensis),and theaflavin-3,3’-digallate,3-isotheaflav1in-3 gallate and dihydrotanshinone I(isolated from Salvia miltiorrhiza),had IC_(50)values of less than 15μg/mL.Kinetic mechanistic studies of several active compounds revealed that their mode of inhibition was dose-dependent and competitive,with K_(i)values ranging from 2.4-43.8μmol/L.Given the significance of plant-based compounds and the many promising results obtained,there is still need to explore the phytochemical and mechanistic potentials of plants and their products.These medicinal plants could serve as an effective inexpensive nutraceutical for the general public to help manage COVID-19.展开更多
文摘Bactericidal activity of some arginine based biodegradable polymers-PEURs (poly (ester urethane)s) and PEUs (poly (ester urea)s) with low cytotoxicity was studied in in vitro experiments. Various bacterial strains both Gram-positive and Gram-negative were used to explore the bactericidal activity of the cationic polymers. As the test objects, the following microorganisms were used: Bacillus subtilis, Staphylococcus aureus, Mycobacterium album, Pseudomonas fluorescens, Escherichia coli, Actinomyces griseus and Aspergillus niger. The obtained results showed that the new cationic polymers suppressed the growth of the studied microorganisms and the bactericidal activity of the tested cationic polymers strongly depending on their chemical structure.
基金financially supported by President’s International Fellowship Initiative(PIFI)for Postdoctoral Researchers,Chinese Academy of Sciences(No.2020PB0002),China。
文摘At present,a variety of vaccines have been approved,and existing antiviral drugs are being tested to find an effective treatment for coronavirus disease 2019(COVID-19).However,no standardized treatment has yet been approved by the World Health Organization.The virally encoded chymotrypsin-like protease(3CL^(pro))from severe acute respiratory syndrome coronavirus 2(SARS-CoV-2),which facilitates the replication of SARS-CoV in the host cells,is one potential pharmacological target for the development of antiSARS drugs.Online search engines,such as Web of Science,Google Scholar,Scopus and PubMed,were used to retrieve data on the traditional uses of medicinal plants and their inhibitory effects against the SARS-CoV 3CL^(pro).Various pure compounds,including polyphenols,terpenoids,chalcones,alkaloids,biflavonoids,flavanones,anthraquinones and glycosides,have shown potent inhibition of SARS-CoV-2 3CL^(pro) activity with 50% inhibitory concentration(IC_(50))values ranging from 2-44μg/mL.Interestingly,most of these active compounds,including xanthoangelol E(isolated from Angelica keiskei),dieckol 1(isolated from Ecklonia cava),amentoflavone(isolated from Torreya nucifera),celastrol,pristimerin,tingenone and iguesterin(isolated from Tripterygium regelii),tannic acid(isolated from Camellia sinensis),and theaflavin-3,3’-digallate,3-isotheaflav1in-3 gallate and dihydrotanshinone I(isolated from Salvia miltiorrhiza),had IC_(50)values of less than 15μg/mL.Kinetic mechanistic studies of several active compounds revealed that their mode of inhibition was dose-dependent and competitive,with K_(i)values ranging from 2.4-43.8μmol/L.Given the significance of plant-based compounds and the many promising results obtained,there is still need to explore the phytochemical and mechanistic potentials of plants and their products.These medicinal plants could serve as an effective inexpensive nutraceutical for the general public to help manage COVID-19.
