Identification of the Allosteric Binding Site for Thiazolopyrimidine on the C-Type Lectin Langerin

Zhang Hengxi, Carlos Modenutti, Yelha Phani Kumar Nekkanti, Maxime Denis, Iris A. Bermejo, Jonathan Lefèbre, Kateryna Che, Dongyoon Kim, Marten Kagelmacher, Dennis Kurzbach, Marc Nazaré, Christoph Rademacher (Corresponding author)

Publications: Contribution to journalArticlePeer Reviewed

Abstract

Langerin is a mammalian C-type lectin expressed on Langerhans cells in the skin. As an innate immune cell receptor, Langerin is involved in coordinating innate and adaptive immune responses against various incoming threats. We have previously reported a series of thiazolopyrimidines as murine Langerin ligands. Prompted by the observation that its human homologue exhibits different binding specificities for these small molecules, we report here our investigations to define their exact binding site. By using structural comparison and molecular dynamics simulations, we showed that the nonconserved short loops have a high degree of conformational flexibility between the human and murine homologues. Sequence analysis and mutational studies indicated that a pair of residues are essential for the recognition of the thiazolopyrimidines. Taking solvent paramagnetic relaxation enhancement NMR studies together with a series of peptides occupying the same site, we could define the cleft between the short and long loops as the allosteric binding site for these aromatic heterocycles.
Original languageEnglish
Pages (from-to)2728–2733
Number of pages6
JournalACS Chemical Biology
Volume17
Issue number10
Early online date26 Sep 2022
DOIs
Publication statusPublished - 21 Oct 2022

Austrian Fields of Science 2012

  • 104004 Chemical biology

Keywords

  • CELLS
  • AFFINITY

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