Structural Basis of Neutralization by Human Antibodies Targeting Crimean-Congo Hemorrhagic Fever Virus Glycoprotein Gc

Abstract

Crimean-Congo hemorrhagic fever virus (CCHFV), the only endemic biosafety level 4 pathogen in Europe, is the world’s most widely distributed tick-borne zoonotic virus with a 30% fatality rate in humans, underlining the need for specific therapeutics and vaccines. The CCHFV membrane fusion glycoprotein Gc is the main target of the host neutralizing antibody response. Here we describe the structure of pre-fusion Gc in complex with the antigen-binding fragments (Fabs) corresponding to a therapeutically potent bispecific antibody as well as the structure of unbound Gc in its post-fusion conformation. Our findings suggest that one Fab blocks insertion of the fusion loops into the target membrane, whereas the other blocks formation of the post-fusion trimer. Combined with yeast display of mutagenized Gc, the structures allowed epitope mapping of a large panel of neutralizing antibodies. These data provide the essential molecular underpinnings for developing vaccines and therapeutics against CCHFV.