ABSTRACT
Lectins are a group of highly specific carbohydrate-binding proteins with a wide spectrum of action, involved in the so-called <<first line>> of body defense. These unique biomolecules show high specificity for various mono- and oligosaccharides, primarily for viral and bacterial glycoconjugates. Cyanobacteria lectins are effective against enveloped viruses and are an appealing alternative to existing synthetic drugs. Virtually complete absence of resistance formation in viruses to these compounds is known. The purpose of this review is to analyze, summarize, and discuss the results of experimental studies in vivo and in vitro, illustrating the mechanisms of action and antiviral effects of lectins obtained from cyanobacteria in relation to the most dangerous and socially significant viruses: SARS-Cov-2, HIV, Ebola viruses, influenza, and hepatitis C. In addition, the article outlines some of the challenges that must be overcome in order to obtain effective antiviral drugs in the future.Copyright © Team of Authors, 2022.
ABSTRACT
Lectins are a group of highly specific carbohydrate-binding proteins with a wide spectrum of action, involved in the so-called <<first line>> of body defense. These unique biomolecules show high specificity for various mono- and oligosaccharides, primarily for viral and bacterial glycoconjugates. Cyanobacteria lectins are effective against enveloped viruses and are an appealing alternative to existing synthetic drugs. Virtually complete absence of resistance formation in viruses to these compounds is known. The purpose of this review is to analyze, summarize, and discuss the results of experimental studies in vivo and in vitro, illustrating the mechanisms of action and antiviral effects of lectins obtained from cyanobacteria in relation to the most dangerous and socially significant viruses: SARS-Cov-2, HIV, Ebola viruses, influenza, and hepatitis C. In addition, the article outlines some of the challenges that must be overcome in order to obtain effective antiviral drugs in the future.Copyright © Team of Authors, 2022.
ABSTRACT
Lectins are a group of highly specific carbohydrate-binding proteins with a wide spectrum of action, involved in the so-called «first line» of body defense. These unique biomolecules show high specificity for various mono- and oligosaccharides, primarily for viral and bacterial glycoconjugates. Cyanobacteria lectins are effective against enveloped viruses and are an appealing alternative to existing synthetic drugs. Virtually complete absence of resistance formation in viruses to these compounds is known. The purpose of this review is to analyze, summarize, and discuss the results of experimental studies in vivo and in vitro, illustrating the mechanisms of action and antiviral effects of lectins obtained from cyanobacteria in relation to the most dangerous and socially significant viruses: SARS-Cov-2, HIV, Ebola viruses, influenza, and hepatitis C. In addition, the article outlines some of the challenges that must be overcome in order to obtain effective antiviral drugs in the future.
ABSTRACT
One of the most important requirements for the personnel of microbiological laboratories working with pathogenic and infectious agents is the observance of precautionary measures and the implementation of a set of preventive measures, collectively interpreted as biological safety (biosafety). To a large extent, biosafety problems are also relevant for all clinical laboratories working with biosubstrates, with the potential threat of containing pathogens of bloodborne infections in them. On December 30, 2020, the President of the Russian Federation signed Federal Law â 492 «On the Biological Safety of the Russian Federation¼ (â 492-FZ), which regulates the basic legal norms and regulation of biosafety issues, as well as a list of measures to prevent the risks of the spread of infections due to accidents, bioterrorist acts and sabotage. The current pandemic of the coronavirus infection COVID-19 has demonstrated, on the one hand, the epidemiological vulnerability of the single world space, and on the other hand, the decisive influence of biological emergencies on the emergence of negative political and economic processes in the world community. In this regard, the issues of ensuring biosafety in the work of microbiological laboratories in the context of protecting personnel and the environment from accidental or unintentional spread of infections are relevant. Working with pathogenic biological agents in microbiological laboratories is constantly associated with the risk of accidents and possible laboratory infection (laboratory-acquired infections) of employees, environmental pollution if the requirements of regulatory documents on biological safety are not met. In accordance with the requirements of â 492-FZ, in order to prevent biological threats, it is necessary to create a system for monitoring biological risks in microbiological laboratories when working with any infected material.