Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein

Christine Toelzer(At Bristol), Kapil Gupta(At Bristol), Sathish K.N. Yadav(At Bristol), Ufuk Borucu(At Bristol), Andrew D. Davidson(University of Bristol), Maia Kavanagh Williamson(University of Bristol), Deborah K. Shoemark(At Bristol), Frédéric Garzoni(Philips (United Kingdom)), Oskar Staufer(Heidelberg University), Rachel Milligan(University of Bristol), Julien Capin(At Bristol), Adrian J. Mulholland(University of Bristol), Joachim P. Spatz(Heidelberg University), Daniel J. Fitzgerald, Imre Berger(At Bristol), Christiane Schaffitzel(At Bristol)
Science
September 21, 2020
10.1126/science.abd3255
Cited by 496Open Access
Full Text

Abstract

Locking down the SARS-CoV-2 spike Many efforts to develop therapies against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) are focused on the spike (S) protein trimer that binds to the host receptor. Structures of trimeric S protein show its receptor-binding domain in either an up or a down conformation. Toelzer et al. produced SARS-CoV-2 S in insect cells and determined the structure by cryo–electron microscopy. In their dataset, the closed form was predominant and was stabilized by binding linoleic acid, an essential fatty acid. A similar binding pocket appears to be present in previous highly pathogenic coronaviruses, and past studies suggested links between viral infection and fatty acid metabolism. The pocket could be exploited to develop inhibitors that trap S protein in the closed conformation. Science , this issue p. 725

Related Papers

No related papers found

Powered by citation graph analysis