Antipoxvirus Activity Evaluation of Optimized Corroles Based on Development of Autofluorescent ANCHOR Myxoma Virus

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TitreAntipoxvirus Activity Evaluation of Optimized Corroles Based on Development of Autofluorescent ANCHOR Myxoma Virus
Type de publicationJournal Article
Year of Publication2021
AuteursKappler-Gratias S, Bucher L, Top S, Quentin-Froignant C, Desbois N, Bertagnoli S, Louison M, Monge E, Bousquet-Melou A, Lacroix M, Gros CP, Gallardo F
JournalACS INFECTIOUS DISEASES
Volume7
Pagination2370-2382
Date PublishedAUG 13
Type of ArticleArticle
ISSN2373-8227
Mots-clésantiviral, corrole, dsDNA virus, myxoma virus, poxvirus, resistant strain
Résumé

A series of 43 antiviral corrole-based molecules have been tested on myxoma virus (Lausanne-like T1MYXV strain). An autofluorescent MYXV, with an ANCHOR cassette, has been used for the studies. A(2)B-fluorocorroles display various toxicities, from 40 being very toxic (CC50 = 1.7 mu M) to nontoxic 38 (CC50 > 50 mu M), whereas A(3)-fluorocorroles, with one to three fluorine atoms, are not toxic (with the exception of corroles 9, 10, and 22). In vitro, these compounds show a good selectivity index when used alone. Corrole 35 seems to be the most promising compound, which displays a high selectivity index with the lowest IC50. Interestingly, this ``Hit'' corrole is easy to synthesize in a two-step reaction. Upscaling production up to 25 g has been carried out for in vivo tests. In vivo studies on New Zealand white rabbits infected with myxoma virus show that symptoms are delayed and animal weight is increased upon treatment, while no acute toxicity of the corrole molecule was detected.

DOI10.1021/acsinfecdis.1c00068