Lars Clark scite author profile

Alphaviruses, like many other arthropod-borne viruses, infect vertebrate species and insect vectors separated by hundreds of millions of years of evolutionary history. Entry into evolutionarily divergent host cells can be accomplished by recognition of different cellular receptors in different species, or by binding to receptors that are highly conserved across species. Although multiple alphavirus receptors have been described 1 – 3 , most are not shared among vertebrate and invertebrate hosts. Here we identify the very low-density lipoprotein receptor (VLDLR) as a receptor for the prototypic alphavirus Semliki forest virus. We show that the E2 and E1 glycoproteins (E2–E1) of Semliki forest virus, eastern equine encephalitis virus and Sindbis virus interact with the ligand-binding domains (LBDs) of VLDLR and apolipoprotein E receptor 2 (ApoER2), two closely related receptors. Ectopic expression of either protein facilitates cellular attachment, and internalization of virus-like particles, a VLDLR LBD–Fc fusion protein or a ligand-binding antagonist block Semliki forest virus E2–E1-mediated infection of human and mouse neurons in culture. The administration of a VLDLR LBD–Fc fusion protein has protective activity against rapidly fatal Semliki forest virus infection in mouse neonates. We further show that invertebrate receptor orthologues from mosquitoes and worms can serve as functional alphavirus receptors. We propose that the ability of some alphaviruses to infect a wide range of hosts is a result of their engagement of evolutionarily conserved lipoprotein receptors and contributes to their pathogenesis.

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Molecular Basis for Antibody-Mediated Neutralization of New World Hemorrhagic Fever Mammarenaviruses

Mahmutovic

Clark

Levis

et al. 2015

Cell Host & Microbe

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SUMMARY In the Western hemisphere, at least five mammarenaviruses cause human viral hemorrhagic fevers with high case fatality rates. Junín virus (JUNV) is the only hemorrhagic fever virus for which transfusion of survivor immune plasma that contains neutralizing antibodies (‘passive immunity’) is an established treatment. Here, we report the structure of the JUNV surface glycoprotein receptor-binding subunit (GP1) bound to a neutralizing monoclonal antibody. The antibody engages the GP1 site that binds transferrin receptor 1 (TfR1) – the host cell surface receptor for all New World hemorrhagic fever mammarenaviruses - and mimics an important receptor contact. We show that survivor immune plasma contains antibodies that bind the same epitope. We propose that viral receptor-binding site accessibility explains the success of passive immunity against JUNV and that this functionally conserved epitope is a potential target for therapeutics and vaccines to limit infection by all New World hemorrhagic fever mammarenaviruses.

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Lars Clark

SARS-CoV-2 evolution in an immunocompromised host reveals shared neutralization escape mechanisms

VLDLR and ApoER2 are receptors for multiple alphaviruses

Molecular Basis for Antibody-Mediated Neutralization of New World Hemorrhagic Fever Mammarenaviruses

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