Literature DB >> 30951731

Cell line-dependent activation and antiviral activity of T-1105, the non-fluorinated analogue of T-705 (favipiravir).

Johanna Huchting1, Evelien Vanderlinden2, Ria Van Berwaer3, Chris Meier4, Lieve Naesens5.   

Abstract

The antiviral drug T-705 (favipiravir) and its non-fluorinated analogue T-1105 inhibit the polymerases of RNA viruses after being converted to their ribonucleoside triphosphate (RTP) metabolite. We here compared the activation efficiency of T-705 and T-1105 in four cell lines that are commonly used for their antiviral evaluation. In MDCK cells, the levels of T-705-RTP were markedly lower than those of T-1105-RTP, while the opposite was seen in A549, Vero and HEK293T cells. In the latter three cell lines, T-1105 activation was hindered by inefficient conversion of the ribonucleoside monophosphate to the ribonucleoside diphosphate en route to forming the active triphosphate. Accordingly, T-1105 had better anti-RNA virus activity in MDCK cells, while T-705 was more potent in the other three cell lines. Additionally, we identified a fourth metabolite, the NAD analogue of T-705/T-1105, and showed that it can be formed by nicotinamide mononucleotide adenylyltransferase.
Copyright © 2019 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Activation; Antiviral; Cell line dependency; Favipiravir; Nicotinamide mononucleotide analogue

Mesh:

Substances:

Year:  2019        PMID: 30951731     DOI: 10.1016/j.antiviral.2019.04.002

Source DB:  PubMed          Journal:  Antiviral Res        ISSN: 0166-3542            Impact factor:   5.970


  8 in total

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3.  Rapid incorporation of Favipiravir by the fast and permissive viral RNA polymerase complex results in SARS-CoV-2 lethal mutagenesis.

Authors:  Ashleigh Shannon; Barbara Selisko; Nhung-Thi-Tuyet Le; Johanna Huchting; Franck Touret; Géraldine Piorkowski; Véronique Fattorini; François Ferron; Etienne Decroly; Chris Meier; Bruno Coutard; Olve Peersen; Bruno Canard
Journal:  Nat Commun       Date:  2020-09-17       Impact factor: 14.919

4.  Enhancing the Antiviral Potency of Nucleobases for Potential Broad-Spectrum Antiviral Therapies.

Authors:  Ruben Soto-Acosta; Tiffany C Edwards; Christine D Dreis; Venkatramana D Krishna; Maxim C-J Cheeran; Li Qiu; Jiashu Xie; Laurent F Bonnac; Robert J Geraghty
Journal:  Viruses       Date:  2021-12-14       Impact factor: 5.048

5.  CHIKV strains Brazil (wt) and Ross (lab-adapted) differ with regard to cell host range and antiviral sensitivity and show CPE in human glioblastoma cell lines U138 and U251.

Authors:  Friederike I L Hucke; Malena Bestehorn-Willmann; Marcella Bassetto; Andrea Brancale; Paola Zanetta; Joachim J Bugert
Journal:  Virus Genes       Date:  2022-03-26       Impact factor: 2.198

6.  Favipiravir and Its Structural Analogs: Antiviral Activity and Synthesis Methods.

Authors:  I D Konstantinova; V L Andronova; I V Fateev; R S Esipov
Journal:  Acta Naturae       Date:  2022 Apr-Jun       Impact factor: 2.204

7.  Favipiravir strikes the SARS-CoV-2 at its Achilles heel, the RNA polymerase.

Authors:  A Shannon; B Selisko; Ntt Le; J Huchting; F Touret; G Piorkowski; V Fattorini; F Ferron; E Decroly; C Meier; B Coutard; O Peersen; B Canard
Journal:  bioRxiv       Date:  2020-05-15

Review 8.  Antiviral Drug Delivery System for Enhanced Bioactivity, Better Metabolism and Pharmacokinetic Characteristics.

Authors:  Ran Chen; Tingting Wang; Jie Song; Daojun Pu; Dan He; Jianjun Li; Jie Yang; Kailing Li; Cailing Zhong; Jingqing Zhang
Journal:  Int J Nanomedicine       Date:  2021-07-22
  8 in total

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