Abstract
Human immunodeficiency virus type 1 (HIV-1) infection remains a major public health threat due to its incurable nature and the lack of a highly efficacious vaccine. The RV144 vaccine trial is the only clinical study to date that demonstrated significant but modest decrease in HIV infection risk. To improve HIV-1 vaccine immunogenicity and efficacy, we recently evaluated pox-protein vaccination using a next generation liposome-based adjuvant, Army Liposomal Formulation adsorbed to aluminum (ALFA), in rhesus monkeys and observed 90% efficacy against limiting dose mucosal SHIV challenge in male animals. Here, we analyzed binding antibody responses, as assessed by Fc array profiling using a broad range of HIV-1 envelope antigens and Fc features, to explore the mechanisms of ALFA-mediated protection by employing machine learning and Cox proportional hazards regression analyses. We found that Fcγ receptor 2a-related binding antibody responses were augmented by ALFA relative to aluminium hydroxide, and these responses were associated with reduced risk of infection in male animals. Our results highlight the application of systems serology to provide mechanistic insights to vaccine-elicited protection and support evidence that antibody effector responses protect against HIV-1 infection.
Highlights
The Human immunodeficiency virus type 1 (HIV-1) AIDS epidemic remains a major public health threat, claiming over half a million lives globally annually [1]
We recently evaluated a liposomal adjuvant, ALFA, for HIV-1 Env protein vaccination in combination with pox vector priming for efficacy against SHIV acquisition in rhesus macaques [6]
We found that ten Fc receptor-related immune responses were significantly enhanced by the vaccine adjuvanted with ALFA compared to alum
Summary
The HIV-1 AIDS epidemic remains a major public health threat, claiming over half a million lives globally annually [1]. An efficacious HIV-1 vaccine is considered the most effective tool to halt the ongoing HIV-1 epidemic [2]. The follow up HVTN 702 trial evaluating a similar poxprotein HIV vaccine regimen did not recapitulate the efficacy observed in RV 144. As Immunoprofiling Adjuvanted HIV-1 Vaccine numerous parameters differed between these two clinical studies, and several pre-clinical animal studies have supported hypotheses generated by the RV 144 findings, the results of RV 144 remain valid and warrant continued investigation. Continuous and significant efforts are still required for developing a safe and more effective HIV-1 vaccine
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