Abstract
A major goal of efforts to develop a vaccine to prevent HIV-1 infection is induction of broadly cross-reactive neutralizing antibodies (bcnAb). In previous studies we have demonstrated induction of neutralizing antibodies that did cross-react among multiple primary and laboratory strains of HIV-1, but neutralized with limited potency. In the present study we tested the hypothesis that immunization with multiple HIV-1 envelope glycoproteins (Envs) would result in a more potent and cross-reactive neutralizing response. One Env, CM243(N610Q), was selected on the basis of studies of the effects of single and multiple mutations of the four gp41 glycosylation sites. The other two Envs included R2 (subtype B) and 14/00/4 (subtype F), both of which were obtained from donors with bcnAb. Rhesus monkeys were immunized using a prime boost regimen as in previous studies. Individual groups of monkeys were immunized with either one of the three Envs or all three. The single N610Q and N615Q mutations of CM243 Env did not disrupt protein secretion, processing into, or reactivity with mAbs, unlike other single or multiple deglycosylation mutations. In rabbit studies the N610Q mutation alone or in combination was associated with an enhanced neutralizing response against homologous and heterologous subtype E viruses. In the subsequent monkey study the response induced by the R2 Env regimen was equivalent to the trivalent regimen and superior to the other monovalent regimens against the virus panel used for testing. The 14/00/4 Env induced responses superior to CM243(N610Q). The results indicate that elimination of the glycosylation site near the gp41 loop results in enhanced immunogenicity, but that immunization of monkeys with these three distinct Envs was not more immunogenic than with one.
Highlights
Induction of highly potent, broadly crossreactive neutralizing antibodies (bcnAb) is a major goal of current efforts to develop a vaccine for prevention of Human Immunodeficiency Virus Type 1 (HIV-1) infections
Some of these monoclonal antibodies (mAbs) map to cluster I [59] and are contingent on envelope glycoproteins (Envs)’s quaternary structure. Some of these cluster I mAbs possess weak neutralization activity. These mAbs are capable of reacting with native oligomeric Env on the surface of infected cells, and a recent study by another group has indicated that cluster I epitopes in gp41 are well exposed in Env on virions and HIV-1 infected cells [60]
Our goal was to produce a set of modified oligomeric gp140 Envs and evaluate their immunogenic features with the hypothesis that removal of these conserved N-linked glycosylation sites in the gp41 ectodomain may enhance the elicitation of the oligomerization sensitive or specific, bcnAb reactivity previously observed
Summary
BcnAb is a major goal of current efforts to develop a vaccine for prevention of Human Immunodeficiency Virus Type 1 (HIV-1) infections. This goal is made difficult by the remarkable neutralization resistant nature of the virus strains commonly found in infected people. Certain epitopes may be expressed only transiently during the fusion process providing little opportunity for antibody binding. This phenomenon of transient epitope expression has been termed ‘‘conional masking’’
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