Author:
Donnellan Francesca R.,Rayaprolu Vamseedhar,Rijal Pramila,O’Dowd Victoria,Parvate Amar,Callaway Heather,Hariharan Chitra,Parekh Dipti,Hui Sean,Shaffer Kelly,Avalos Ruben Diaz,Hastie Kathryn,Schimanski Lisa,Müller-Kräuter Helena,Strecker Thomas,Balaram Ariane,Halfmann Peter,Saphire Erica Ollmann,Lightwood Daniel J.,Townsend Alain R.,Draper Simon J.
Abstract
AbstractEbolavirus disease (EVD) is caused by multiple species ofEbolavirus. Monoclonal antibodies (mAbs) against the virus glycoprotein (GP) are the only class of therapeutic approved for treatment of EVD caused byZaire ebolavirus(EBOV). Therefore, mAbs targeting multipleEbolavirusspecies may represent the next generation of EVD therapeutics. Broadly reactive anti-GP mAbs were produced; among these, mAbs 11886 and 11883 were broadly neutralizingin vitro. A 3.0 Å cryo-electron microscopy structure of EBOV GP bound to both mAbs shows that 11886 binds a novel epitope bridging the glycan cap (GC), 310pocket and GP2 N-terminus, whereas 11883 binds the receptor binding region (RBR) and GC.In vitro, 11886 synergized with a range of mAbs with epitope specificities spanning the RBR/GC, including 11883. Notably, 11886 increased the breadth of neutralization by partner mAbs against differentEbolavirusspecies. These data provide a strategic route to design improved mAb-based next-generation EVD therapeutics.
Publisher
Cold Spring Harbor Laboratory