Adamantane derivatives as potential inhibitors of p37 major envelope protein and poxvirus reproduction. Design, synthesis and antiviral activity
| Autor: | Rinat A. Maksyutov, Larisa N. Shishkina, Yuri N. Klimochkin, Bormotov Ni, M. V. Leonova, Alexander P. Agafonov, O. A. Serova, Michael Yu Skomorohov, Vadim A. Shiryaev |
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| Rok vydání: | 2021 |
| Předmět: |
viruses
Cowpox Adamantane Microbial Sensitivity Tests Antiviral Agents 01 natural sciences Virus Structure-Activity Relationship 03 medical and health sciences chemistry.chemical_compound Viral Envelope Proteins Drug Discovery medicine 030304 developmental biology Pharmacology 0303 health sciences Dose-Response Relationship Drug Molecular Structure biology 010405 organic chemistry Poxviridae Cowpox virus Ectromelia virus Organic Chemistry Membrane Proteins virus diseases General Medicine medicine.disease biology.organism_classification Virology 0104 chemical sciences chemistry Viral replication Drug Design Monkeypox virus Variola virus Vaccinia |
| Zdroj: | European Journal of Medicinal Chemistry. 221:113485 |
| ISSN: | 0223-5234 |
| DOI: | 10.1016/j.ejmech.2021.113485 |
| Popis: | Currently, smallpox, caused by the variola virus belonging to the poxvirus family, has been completely eradicated according to the WHO. However, other representatives of poxviruses, such as vaccinia virus, cowpox virus, ectromelia virus, monkeypox virus, mousepox virus and others, remain in the natural environment and can infect both animals and humans. The pathogens of animal diseases, belonging to the category with a high epidemic risk, have already caused several outbreaks among humans, and can, in an unfavorable combination of circumstances, cause not only an epidemic, but also a pandemic. Despite the fact that there are protocols for the treatment of poxvirus infections, the targeted design of new drugs will increase their availability and expand the arsenal of antiviral chemotherapeutic agents. One of the potential targets of poxviruses is the p37 protein, which is a tecovirimat target. This protein is relatively small, has no homologs among proteins of humans and other mammals and is necessary for the replication of viral particles, which makes it attractive target for virtual screening. Using the I-TASSER modelling and molecular dynamics refinement the p37 orthopox virus protein model was obtained and its was confirmed by ramachandran plot analysis and superimposition of the model with the template protein with similar function. A virtual library of adamantane containing compounds was generated and a number of potential inhibitors were chosen from virtual library using molecular docking. Several compounds bearing adamantane moiety were synthesized and their biological activity was tested in vitro on vaccinia, cowpox and mousepox viruses. The new compounds inhibiting vaccinia virus replication with IC50 concentrations between 0.133 and 0.515 μM were found as a result of the research. The applied approach can be useful in the search of new inhibitors of orthopox reproduction. The proposed approach may be suitable for the design of new poxvirus inhibitors containing cage structural moiety. |
| Databáze: | OpenAIRE |
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