| Literature DB >> 32755575 |
Cheng Cheng1, Hongying Duan1, Kai Xu1, Gwo-Yu Chuang1, Angela R Corrigan1, Hui Geng1, Sijy O'Dell1, Li Ou1, Michael Chambers1, Anita Changela1, Xuejun Chen1, Kathryn E Foulds1, Edward K Sarfo1, Alexander J Jafari1, Kurt R Hill1, Rui Kong1, Kevin Liu1, John P Todd1, Yaroslav Tsybovsky2, Raffaello Verardi1, Shuishu Wang1, Yiran Wang1, Winston Wu1, Tongqing Zhou1, Frank J Arnold1, Nicole A Doria-Rose1, Richard A Koup1, Adrian B McDermott1, Diana G Scorpio1, Michael Worobey3, Lawrence Shapiro4, John R Mascola5, Peter D Kwong6.
Abstract
The HIV fusion peptide (FP) is a promising vaccine target. FP-directed monoclonal antibodies from vaccinated macaques have been identified that neutralize up to ∼60% of HIV strains; these vaccinations, however, have involved ∼1 year with an extended neutralization-eclipse phase without measurable serum neutralization. Here, in 32 macaques, we test seven vaccination regimens, each comprising multiple immunizations of FP-carrier conjugates and HIV envelope (Env) trimers. Comparisons of vaccine regimens reveal FP-carrier conjugates to imprint cross-clade neutralizing responses and a cocktail of FP conjugate and Env trimer to elicit the earliest broad responses. We identify a signature, appearing as early as week 6 and involving the frequency of B cells recognizing both FP and Env trimer, predictive of vaccine-elicited breadth ∼1 year later. Immune monitoring of B cells in response to vaccination can thus enable vaccine insights even in the absence of serum neutralization, here identifying FP imprinting, cocktail approach, and early signature as means to improve FP-directed vaccine responses. Published by Elsevier Inc.Entities:
Keywords: HIV vaccine; NHP; early signature; envelope trimer; fusion peptide; immune monitoring; immunization regimen; immunogen cocktail; imprinting; prime-boost immunization
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Year: 2020 PMID: 32755575 DOI: 10.1016/j.celrep.2020.107981
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423