Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses

Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses

To date, the ‘one bug-one drug’ approach to antiviral drug development cannot effectively respond to the constant threat posed by an increasing diversity of viruses causing outbreaks of viral infections that turn out to be pathogenic for humans. Evidently, there is an urgent need for new strategies...

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Main Authors: Anastasiya S. Sokolova, Valentina P. Putilova, Olga I. Yarovaya, Anastasiya V. Zybkina, Ekaterina D. Mordvinova, Anna V. Zaykovskaya, Dmitriy N. Shcherbakov, Iana R. Orshanskaya, Ekaterina O. Sinegubova, Iana L. Esaulkova, Sophia S. Borisevich, Nikolay I. Bormotov, Larisa N. Shishkina, Vladimir V. Zarubaev, Oleg V. Pyankov, Rinat A. Maksyutov, Nariman F. Salakhutdinov
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Molecules
Subjects:
camphen
antiviral agent
surface protein
pseudotype viruses
molecular docking
Online Access:https://www.mdpi.com/1420-3049/26/8/2235
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spelling doaj-6e47d2f2d1b14359a5cd3999b60f17742021-04-13T23:01:42ZengMDPI AGMolecules1420-30492021-04-01262235223510.3390/molecules26082235Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of VirusesAnastasiya S. Sokolova0Valentina P. Putilova1Olga I. Yarovaya2Anastasiya V. Zybkina3Ekaterina D. Mordvinova4Anna V. Zaykovskaya5Dmitriy N. Shcherbakov6Iana R. Orshanskaya7Ekaterina O. Sinegubova8Iana L. Esaulkova9Sophia S. Borisevich10Nikolay I. Bormotov11Larisa N. Shishkina12Vladimir V. Zarubaev13Oleg V. Pyankov14Rinat A. Maksyutov15Nariman F. Salakhutdinov16N.N. Vorozhtsov Novosibirsk Institute of Organic Chemistry SB RAS, Lavrent’ev av., 9, 630090 Novosibirsk, RussiaN.N. Vorozhtsov Novosibirsk Institute of Organic Chemistry SB RAS, Lavrent’ev av., 9, 630090 Novosibirsk, RussiaN.N. Vorozhtsov Novosibirsk Institute of Organic Chemistry SB RAS, Lavrent’ev av., 9, 630090 Novosibirsk, RussiaState Research Center of Virology and Biotechnology VECTOR, Rospotrebnadzor, 630559 Novosibirsk, RussiaN.N. Vorozhtsov Novosibirsk Institute of Organic Chemistry SB RAS, Lavrent’ev av., 9, 630090 Novosibirsk, RussiaState Research Center of Virology and Biotechnology VECTOR, Rospotrebnadzor, 630559 Novosibirsk, RussiaState Research Center of Virology and Biotechnology VECTOR, Rospotrebnadzor, 630559 Novosibirsk, RussiaPasteur Institute of Epidemiology and Microbiology, 14 Mira str., 197101 St. Petersburg, RussiaPasteur Institute of Epidemiology and Microbiology, 14 Mira str., 197101 St. Petersburg, RussiaPasteur Institute of Epidemiology and Microbiology, 14 Mira str., 197101 St. Petersburg, RussiaLaboratory of Chemical Physics, Ufa Institute of Chemistry Ufa Federal Research Center, 71 Pr. Oktyabrya, 450078 Ufa, RussiaState Research Center of Virology and Biotechnology VECTOR, Rospotrebnadzor, 630559 Novosibirsk, RussiaState Research Center of Virology and Biotechnology VECTOR, Rospotrebnadzor, 630559 Novosibirsk, RussiaPasteur Institute of Epidemiology and Microbiology, 14 Mira str., 197101 St. Petersburg, RussiaState Research Center of Virology and Biotechnology VECTOR, Rospotrebnadzor, 630559 Novosibirsk, RussiaState Research Center of Virology and Biotechnology VECTOR, Rospotrebnadzor, 630559 Novosibirsk, RussiaN.N. Vorozhtsov Novosibirsk Institute of Organic Chemistry SB RAS, Lavrent’ev av., 9, 630090 Novosibirsk, RussiaTo date, the ‘one bug-one drug’ approach to antiviral drug development cannot effectively respond to the constant threat posed by an increasing diversity of viruses causing outbreaks of viral infections that turn out to be pathogenic for humans. Evidently, there is an urgent need for new strategies to develop efficient antiviral agents with broad-spectrum activities. In this paper, we identified camphene derivatives that showed broad antiviral activities in vitro against a panel of enveloped pathogenic viruses, including influenza virus A/PR/8/34 (H1N1), Ebola virus (EBOV), and the Hantaan virus. The lead-compound <b>2a</b>, with pyrrolidine cycle in its structure, displayed antiviral activity against influenza virus (IC<sub>50</sub> = 45.3 µM), Ebola pseudotype viruses (IC<sub>50</sub> = 0.12 µM), and authentic EBOV (IC<sub>50</sub> = 18.3 µM), as well as against pseudoviruses with Hantaan virus Gn-Gc glycoprotein (IC<sub>50</sub> = 9.1 µM). The results of antiviral activity studies using pseudotype viruses and molecular modeling suggest that surface proteins of the viruses required for the fusion process between viral and cellular membranes are the likely target of compound <b>2a</b>. The key structural fragments responsible for efficient binding are the bicyclic natural framework and the nitrogen atom. These data encourage us to conduct further investigations using bicyclic monoterpenoids as a scaffold for the rational design of membrane-fusion targeting inhibitors.https://www.mdpi.com/1420-3049/26/8/2235camphenantiviral agentsurface proteinpseudotype virusesmolecular docking
collection DOAJ
language English
format Article
sources DOAJ
author Anastasiya S. Sokolova
Valentina P. Putilova
Olga I. Yarovaya
Anastasiya V. Zybkina
Ekaterina D. Mordvinova
Anna V. Zaykovskaya
Dmitriy N. Shcherbakov
Iana R. Orshanskaya
Ekaterina O. Sinegubova
Iana L. Esaulkova
Sophia S. Borisevich
Nikolay I. Bormotov
Larisa N. Shishkina
Vladimir V. Zarubaev
Oleg V. Pyankov
Rinat A. Maksyutov
Nariman F. Salakhutdinov
spellingShingle Anastasiya S. Sokolova
Valentina P. Putilova
Olga I. Yarovaya
Anastasiya V. Zybkina
Ekaterina D. Mordvinova
Anna V. Zaykovskaya
Dmitriy N. Shcherbakov
Iana R. Orshanskaya
Ekaterina O. Sinegubova
Iana L. Esaulkova
Sophia S. Borisevich
Nikolay I. Bormotov
Larisa N. Shishkina
Vladimir V. Zarubaev
Oleg V. Pyankov
Rinat A. Maksyutov
Nariman F. Salakhutdinov
Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses
Molecules
camphen
antiviral agent
surface protein
pseudotype viruses
molecular docking
author_facet Anastasiya S. Sokolova
Valentina P. Putilova
Olga I. Yarovaya
Anastasiya V. Zybkina
Ekaterina D. Mordvinova
Anna V. Zaykovskaya
Dmitriy N. Shcherbakov
Iana R. Orshanskaya
Ekaterina O. Sinegubova
Iana L. Esaulkova
Sophia S. Borisevich
Nikolay I. Bormotov
Larisa N. Shishkina
Vladimir V. Zarubaev
Oleg V. Pyankov
Rinat A. Maksyutov
Nariman F. Salakhutdinov
author_sort Anastasiya S. Sokolova
title Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses
title_short Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses
title_full Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses
title_fullStr Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses
title_full_unstemmed Synthesis and Antiviral Activity of Camphene Derivatives against Different Types of Viruses
title_sort synthesis and antiviral activity of camphene derivatives against different types of viruses
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2021-04-01
description To date, the ‘one bug-one drug’ approach to antiviral drug development cannot effectively respond to the constant threat posed by an increasing diversity of viruses causing outbreaks of viral infections that turn out to be pathogenic for humans. Evidently, there is an urgent need for new strategies to develop efficient antiviral agents with broad-spectrum activities. In this paper, we identified camphene derivatives that showed broad antiviral activities in vitro against a panel of enveloped pathogenic viruses, including influenza virus A/PR/8/34 (H1N1), Ebola virus (EBOV), and the Hantaan virus. The lead-compound <b>2a</b>, with pyrrolidine cycle in its structure, displayed antiviral activity against influenza virus (IC<sub>50</sub> = 45.3 µM), Ebola pseudotype viruses (IC<sub>50</sub> = 0.12 µM), and authentic EBOV (IC<sub>50</sub> = 18.3 µM), as well as against pseudoviruses with Hantaan virus Gn-Gc glycoprotein (IC<sub>50</sub> = 9.1 µM). The results of antiviral activity studies using pseudotype viruses and molecular modeling suggest that surface proteins of the viruses required for the fusion process between viral and cellular membranes are the likely target of compound <b>2a</b>. The key structural fragments responsible for efficient binding are the bicyclic natural framework and the nitrogen atom. These data encourage us to conduct further investigations using bicyclic monoterpenoids as a scaffold for the rational design of membrane-fusion targeting inhibitors.
topic camphen
antiviral agent
surface protein
pseudotype viruses
molecular docking
url https://www.mdpi.com/1420-3049/26/8/2235
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