Inhibition of H1 and H5 Influenza A Virus Entry by Diverse Macrocyclic Peptides Targeting the Hemagglutinin Stem Region: ACS Chemical Biology

Mirte N. Pascha, Vito Thijssen, Julia E. Egido, Mirte W. Linthorst, Jipke H. van Lanen, David A. A. van Dongen, Antonius J. P. Hopstaken, Frank J. M. van Kuppeveld, Joost Snijder, Cornelis A. M. de Haan, Seino A. K. Jongkees

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Influenza A viruses pose a serious pandemic risk, while generation of efficient vaccines against seasonal variants remains challenging. There is thus a pressing need for new treatment options. We report here a set of macrocyclic peptides that inhibit influenza A virus infection at low nanomolar concentrations by binding to hemagglutinin, selected using ultrahigh-Throughput screening of a diverse peptide library. The peptides are active against both H1 and H5 variants, with no detectable cytotoxicity. Despite the high sequence diversity across hits, all tested peptides were found to bind to the same region in the hemagglutinin stem by HDX-MS epitope mapping. A mutation in this region identified in an escape variant confirmed the binding site. This stands in contrast to the immunodominance of the head region for antibody binding and suggests that macrocyclic peptides from in vitro display may be well suited for finding new druggable sites not revealed by antibodies. Functional analysis indicates that these peptides stabilize the prefusion conformation of the protein and thereby prevent virus-cell fusion. High-Throughput screening of macrocyclic peptides is thus shown here to be a powerful method for the discovery of novel broadly acting viral fusion inhibitors with therapeutic potential.

Original languageEnglish
Pages (from-to)2425-2436
Number of pages12
JournalACS Chemical Biology
Volume17
Issue number9
DOIs
Publication statusPublished - 16 Sept 2022

Keywords

  • Antibodies, Viral/genetics
  • Hemagglutinin Glycoproteins, Influenza Virus/metabolism
  • Hemagglutinins
  • Influenza A virus/chemistry
  • Peptide Library

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