Literature

Abstract

Two new polycyclic scaffolds were synthesized and evaluated as anti-influenza A compounds. The 5-azapentacyclo[6.4.0.0(2,10).0(3,7).0(9,11)]dodecane derivatives were only active against the wild-type M2 channel in the low-micromolar range. However, some of the 14-azaheptacyclo[8.6.1.0(2,5).0(3,11).0(4,9).0(6,17).0(12,16)]heptadecane derivatives were dual inhibitors of the wild-type and the V27A mutant M2 channels. The antiviral activity of these molecules was confirmed by cell culture assays. Their binding mode was analysed through molecular dynamics simulations, which showed the existence of distinct binding modes in the wild type M2 channel and its V27A variant.

DOI： 10.1016/j.ejmech.2015.04.030

New polycyclic dual inhibitors of the wild type and the V27A mutant M2 channel of the influenza A virus with unexpected binding mode

European Journal of Medicinal Chemistry 2015.0

3-Azatetracyclo[5.2.1.1<sup>5,8</sup>.0<sup>1,5</sup>]undecane Derivatives: From Wild-Type Inhibitors of the M2 Ion Channel of Influenza A Virus to Derivatives with Potent Activity against the V27A Mutant

Journal of Medicinal Chemistry 2013.0

Easily Accessible Polycyclic Amines that Inhibit the Wild-Type and Amantadine-Resistant Mutants of the M2 Channel of Influenza A Virus

Journal of Medicinal Chemistry 2014.0

Slow but Steady Wins the Race: Dissimilarities among New Dual Inhibitors of the Wild-Type and the V27A Mutant M2 Channels of Influenza A Virus

Journal of Medicinal Chemistry 2017.0

Exploring the Size Limit of Templates for Inhibitors of the M2 Ion Channel of Influenza A Virus

Journal of Medicinal Chemistry 2011.0

Novel spirothiazamenthane inhibitors of the influenza A M2 proton channel