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Immune checkpoint modulation enhances HIV-1 antibody induction

Todd Bradley, Masayuki Kuraoka, Chen‐Hao Yeh, Ming Tian, Huan Chen, Derek W. Cain, Xuejun Chen, Cheng Cheng, Ali H. Ellebedy, Robert Parks, Maggie Barr, Laura L. Sutherland, Richard M. Scearce, Cindy Bowman, Hilary Bouton-Verville, Sampa Santra, Kevin Wiehe, Mark G. Lewis, Ane Ogbe, Persephone Borrow, David C. Montefiori, Mattia Bonsignori, M. Anthony Moody, Laurent Verkoczy, Kevin O. Saunders, Rafi Ahmed, John R. Mascola, Garnett Kelsoe, Frederick W. Alt, Barton F. Haynes

2020Nature Communications38 citationsDOIOpen Access PDF

Abstract

Eliciting protective titers of HIV-1 broadly neutralizing antibodies (bnAbs) is a goal of HIV-1 vaccine development, but current vaccine strategies have yet to induce bnAbs in humans. Many bnAbs isolated from HIV-1-infected individuals are encoded by immunoglobulin gene rearrangments with infrequent naive B cell precursors and with unusual genetic features that may be subject to host regulatory control. Here, we administer antibodies targeting immune cell regulatory receptors CTLA-4, PD-1 or OX40 along with HIV envelope (Env) vaccines to rhesus macaques and bnAb immunoglobulin knock-in (KI) mice expressing diverse precursors of CD4 binding site HIV-1 bnAbs. CTLA-4 blockade augments HIV-1 Env antibody responses in macaques, and in a bnAb-precursor mouse model, CTLA-4 blocking or OX40 agonist antibodies increase germinal center B and T follicular helper cells and plasma neutralizing antibodies. Thus, modulation of CTLA-4 or OX40 immune checkpoints during vaccination can promote germinal center activity and enhance HIV-1 Env antibody responses.

Topics & Concepts

Germinal centerAntibodyImmune systemVirologyBiologyImmunologyHIV vaccineImmunoglobulin class switchingB cellVaccine trialHIV Research and TreatmentImmune Cell Function and InteractionT-cell and B-cell Immunology
Immune checkpoint modulation enhances HIV-1 antibody induction | Litcius