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Anti-Ebola virus mAb 3A6 with unprecedented potency protects highly viremic animals from fatal outcome and physically lifts its glycoprotein target from the virion membrane.

Erica Ollmann SaphireZhe Li SalieZunlong KePeter J HalfmannLisa Evans DeWaldSara McArdleAriadna GrinyoEdgar DavidsonSharon L SchendelChitra HariharanMichael NorrisXiaoying YuChakravarthy ChennareddyXiaoli XiongMegan HeinrichMichael R HolbrookBenjamin J DoranzIan CrozierKathryn HastieYoshihiro KawaokaLuis BrancoJ Thomas BeattyJohn BriggsGabriella WorwaCarl DavisRajesh M Valanparambil
Published in: Research square (2023)
Monoclonal antibodies (mAbs) against Ebola virus (EBOV) glycoprotein (GP 1,2 ) are the standard of care for Ebola virus disease (EVD). Anti-GP 1,2 mAbs targeting the stalk and membrane proximal external region (MPER) potently neutralize EBOV in vitro . However, their neutralization mechanism is poorly understood because they target a GP 1,2 epitope that has evaded structural characterization. Moreover, their in vivo efficacy has only been evaluated in the mouse model of EVD. Using x-ray crystallography and cryo-electron tomography of 3A6 complexed with its stalk- GP 1,2 MPER epitope we reveal a novel mechanism in which 3A6 elevates the stalk or stabilizes a conformation of GP 1,2 that is lifted from the virion membrane. In domestic guinea pig and rhesus monkey EVD models, 3A6 provides therapeutic benefit at high viremia levels, advanced disease stages, and at the lowest dose yet demonstrated for any anti-EBOV mAb-based monotherapy. These findings can guide design of next-generation, highly potent anti-EBOV mAbs.
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