We investigated the effects on assembly and antigenic properties of specific modifications of the transmembrane spanning (TMS) and cytoplasmic tail (CT) domains of HIV-1 Env from a transmitted/founder (T/F) ZM53 Env glycoprotein. A construct containing a short version of the TMS domain derived from the mouse mammary tumor virus (MMTV) Env with or without a GCN4 trimerization sequence in the CT exhibited the highest levels of incorporation into VLPs and induced the highest titers of anti-Env IgG immune responses in a VLP context. Sera from guinea pigs immunized by VLPs with high Env content, and containing the CT trimerization sequence, had increased neutralization activity and antibody avidity. A cross-clade prime-boost regimen with clade B SF162 or clade C ZM53 Env DNA priming and boosting with VLPs containing modified ZM53 Env further enhanced these immune responses. The modified VLPs demonstrate improved potential as HIV-1 vaccine antigens.
Keywords: Antibody avidity; Cross-clade immunization; Cytoplasmic tail; Env glycoprotein; HIV-1; Immunogenicity; Neutralizing antibodies; Protein modification; Trimer stability; VLP vaccine.
Copyright © 2016. Published by Elsevier Inc.