Discovery of New Potent anti-MERS CoV Fusion Inhibitors
Mahmoud Kandeel, Mizuki Yamamoto, Byoung Kwon Park, Abdulla Al‐Taher, Aya Watanabe, Jin Gohda, Yasushi Kawaguchi, Kentaro Oh‐hashi, Hyung‐Joo Kwon, Jun‐ichiro Inoue
Abstract
Middle East respiratory syndrome coronavirus (MERS-CoV), capable of zoonotic transmission, has been associated with emerging viral pneumonia in humans. In this study, a set of highly potent peptides were designed to prevent MERS-CoV fusion through competition with heptad repeat domain 2 (HR2) at its HR1 binding site. We designed eleven peptides with stronger estimated HR1 binding affinities than the wild-type peptide to prevent viral fusion with the cell membrane. Eight peptides showed strong inhibition of spike-mediated MERS-CoV cell-cell fusion with IC50 values in the nanomolar range (0.25-2.3 µM). Peptides #4-6 inhibited 95-98.3% of MERS-CoV plaque formation. Notably, peptide four showed strong inhibition of MERS-CoV plaques formation with EC50 = 0.302 µM. All peptides demonstrated safe profiles without cytotoxicity up to a concentration of 10 μM, and this cellular safety, combined with their anti-MERS-CoV antiviral activity, indicate all peptides can be regarded as potential promising antiviral agents.