Structure of the hepatitis C virus E1E2 glycoprotein complex

Alba Torrents de la Peña; Kwinten Sliepen; Lisa Eshun-Wilson; Maddy L. Newby; Joel D. Allen; Ian Zon; Sylvie M. Koekkoek; Ana Chumbe; Max Crispin; Janke Schinkel; Gabriel C. Lander; Rogier W. Sanders; Andrew B. Ward

doi:10.1126/science.abn9884

Structure of the hepatitis C virus E1E2 glycoprotein complex

Alba Torrents de la Peña(Scripps Research Institute), Kwinten Sliepen(Amsterdam Neuroscience), Lisa Eshun-Wilson(Scripps Research Institute), Maddy L. Newby(University of Southampton), Joel D. Allen(University of Southampton), Ian Zon(Amsterdam Neuroscience), Sylvie M. Koekkoek(Amsterdam Neuroscience), Ana Chumbe(Amsterdam Neuroscience), Max Crispin(University of Southampton), Janke Schinkel(Amsterdam Neuroscience), Gabriel C. Lander(Scripps Research Institute), Rogier W. Sanders(Cornell University), Andrew B. Ward(Scripps Research Institute)

Science

October 20, 2022

10.1126/science.abn9884

Cited by 88Open Access

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Abstract

Hepatitis C virus (HCV) infection is a leading cause of chronic liver disease, cirrhosis, and hepatocellular carcinoma in humans and afflicts more than 58 million people worldwide. The HCV envelope E1 and E2 glycoproteins are essential for viral entry and comprise the primary antigenic target for neutralizing antibody responses. The molecular mechanisms of E1E2 assembly, as well as how the E1E2 heterodimer binds broadly neutralizing antibodies, remain elusive. Here, we present the cryo-electron microscopy structure of the membrane-extracted full-length E1E2 heterodimer in complex with three broadly neutralizing antibodies-AR4A, AT1209, and IGH505-at ~3.5-angstrom resolution. We resolve the interface between the E1 and E2 ectodomains and deliver a blueprint for the rational design of vaccine immunogens and antiviral drugs.

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