CD4-IgG2 is a novel fusion protein comprising human IgG2 in which the Fv portions of both heavy and light chains have been replaced by the V1 and V2 domains of human CD4. This tetrameric protein is being developed as an immunoprophylactic agent to reduce the probability of infection following HIV-1 exposure, in settings such as occupational or perinatal exposure to the virus. CD4-IgG2 has been expressed in Chinese hamster ovary cells and is secreted as a fully assembled heterotetramer. The protein binds with nanomolar affinity to purified gp120 from both a laboratory-adapted strain and a primary isolate of HIV-1. Pharmacokinetic studies in rabbits demonstrated that CD4-IgG2 has a plasma terminal half-life greater than 1 day, compared with 15 min for soluble CD4 (sCD4). CD4-IgG2 does not bind to Fc receptors on the surface of U937 monocyte/macrophage cells. Compared to molecules that incorporate the Fc portion of IgG1, CD4-IgG2 has less potential to mediate functions such as antibody-dependent enhancement of infection or transplacental transmission of HIV-1. When tested in a virus-free HIV-1 envelope glycoprotein-mediated cell fusion assay, the tetrameric CD4-IgG2 molecule inhibited syncytium formation more effectively than monomeric sCD4 or a dimeric CD4-gamma 2 fusion protein. This suggests the protein will block cell-to-cell transmission of HIV-1. Moreover, CD4-IgG2 effectively neutralized a panel of laboratory-adapted strains and primary isolates of HIV-1, including strains with different tropisms and isolated from different stages of the disease, at concentrations that should be readily achieved in vivo.
How well antibodies can protect against disease due to HIV-1 infection remains a pivotal but unresolved issue with important implications for vaccine design and the use of prophylactic antibody to prevent infection after accidental exposure to the virus and to interrupt transmission of virus from mother to child. Strong doubts about the possible utility of antibodies in vivo have been raised because of the relative resistance of primary viruses to antibody neutralization in vitro. Primary viruses are likely to be close to the viruses transmitted during natural infection in humans. Vaccine studies have been of little value in assessing antibody efficacy in vivo because none of the strategies described to date have elicited significant neutralizing antibody responses to primary viruses. Passive immunization studies are similarly hindered by the paucity of reagents able to neutralize primary viruses effectively and a single study has suggested some benefit. Here we describe experiments to explore the ability of passive antibody to protect against primary virus challenge in hu-PBL-SCID mice. In this model, severe combined immunodeficient (SCID) mice are populated with human peripheral blood mononuclear cells (PBMCs) and infected with HIV-1. We find that the potent neutralizing human monoclonal antibody IgG1b12 at high dose is able to completely protect even when given several hours after viral challenge. The results are encouraging for antibody-based postexposure prophylaxis and support the notion that antibody induction could contribute to an effective vaccine.
In this report, three Mamu-A*01؉ rhesus macaques were examined to compare the emergence of simian immunodeficiency virus (SIV)-specific CD8 ؉ T cells in the intestines and blood in early SIV infection using a major histocompatibility complex class I tetramer complexed with the Gag 181-189 peptide. Fourteen days after intravenous inoculation with SIVmac251, large numbers of SIV Gag 181-189 -specific CD8؉ T cells were detected in the intestinal mucosa (3.1 to 11.5% of CD3 ؉ CD8 ؉ lymphocytes) as well as in the blood (3.1 to 13.4%) of all three macaques. By 21 days postinoculation, levels of tetramer-binding cells had dropped in both the intestines and blood. At day 63, however, levels of SIV Gag 181-189 -specific CD8 ؉ T cells in the intestines had rebounded in all three macaques to levels that were higher (8.6 to 18.7%) than those at day 21. In contrast, percentages of tetramer-binding cells in the peripheral blood remained comparatively stable (2.5 to 4.5%) at this time point. In summary, SIV Gag 181-189 -specific CD8 ؉ T cells appeared in both the intestinal mucosa and peripheral blood at a comparable rate and magnitude in primary SIV infection. Given that the intestine is a major site of early viral replication as well as the site where most of the total body lymphocyte pool resides, these data indicate that it is also an early and important site of development of antiviral immune responses.
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