First Phase I Human Clinical Trial of a Killed Whole-HIV-1 Vaccine: Demonstration of Its Safety and Enhancement of Anti-HIV Antibody Responses

Overview

Journal Retrovirology

Publisher Biomed Central

Specialty Microbiology

Date 2016 Nov 30

PMID 27894306

Citations 13

Authors

Eunsil Choi

Chad J Michalski

Seung Ho Choo

Gyoung Nyoun Kim

Elizabeth Banasikowska

Sangkyun Lee

Kunyu Wu

Hwa-Yong An

Anthony Mills

Stefan Schneider

U Fritz Bredeek

Daniel R Coulston

Shilei Ding

Andres Finzi

Meijuan Tian

Katja Klein

Eric J Arts

Jamie F S Mann

Yong Gao

C Yong Kang

Affiliations

Soon will be listed here.

Abstract

Background: Vaccination with inactivated (killed) whole-virus particles has been used to prevent a wide range of viral diseases. However, for an HIV vaccine this approach has been largely negated due to inherent safety concerns, despite the ability of killed whole-virus vaccines to generate a strong, predominantly antibody-mediated immune response in vivo. HIV-1 Clade B NL4-3 was genetically modified by deleting the nef and vpu genes and substituting the coding sequence for the Env signal peptide with that of honeybee melittin signal peptide to produce a less virulent and more replication efficient virus. This genetically modified virus (gmHIV-1) was inactivated and formulated as a killed whole-HIV vaccine, and then used for a Phase I human clinical trial (Trial Registration: Clinical Trials NCT01546818). The gmHIV-1 was propagated in the A3.01 human T cell line followed by virus purification and inactivation with aldrithiol-2 and γ-irradiation. Thirty-three HIV-1 positive volunteers receiving cART were recruited for this observer-blinded, placebo-controlled Phase I human clinical trial to assess the safety and immunogenicity.

Results: Genetically modified and killed whole-HIV-1 vaccine, SAV001, was well tolerated with no serious adverse events. HIV-1-specific PCR showed neither evidence of vaccine virus replication in the vaccine virus-infected human T lymphocytes in vitro nor in the participating volunteers receiving SAV001 vaccine. Furthermore, SAV001 with adjuvant significantly increased the pre-existing antibody response to HIV-1 proteins. Antibodies in the plasma of vaccinees were also found to recognize HIV-1 envelope protein on the surface of infected cells as well as showing an enhancement of broadly neutralizing antibodies inhibiting tier I and II of HIV-1 B, D, and A subtypes.

Conclusion: The killed whole-HIV vaccine, SAV001, is safe and triggers anti-HIV immune responses. It remains to be determined through an appropriate trial whether this immune response prevents HIV infection.

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