Jacques Homsy scite author profile

Antibodies that enhance human immunodeficiency virus (HIV) infectivity have been found in the blood of infected individuals and in infected or immunized animals. These findings raise serious concern for the development of a safe vaccine against acquired immunodeficiency syndrome. To address the in vivo relevance and mechanism of this phenomenon, antibody-dependent enhancement of HIV infectivity in peripheral blood macrophages, lymphocytes, and human fibroblastoid cells was studied. Neither Leu3a, a monoclonal antibody directed against the CD4 receptor, nor soluble recombinant CD4 even at high concentrations prevented this enhancement. The addition of monoclonal antibody to the Fc receptor III (anti-FcRIII), but not of antibodies that react with FcRI or FcRII, inhibited HIV type 1 and HIV type 2 enhancement in peripheral blood macrophages. Although enhancement of HIV infection in CD4+ lymphocytes could not be blocked by anti-FcRIII, it was inhibited by the addition of human immunoglobulin G aggregates. The results indicate that the FcRIII receptor on human macrophages and possibly another Fc receptor on human CD4+ lymphocytes mediate antibody-dependent enhancement of HIV infectivity and that this phenomenon proceeds through a mechanism independent of the CD4 protein.

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Identification of human immunodeficiency virus subtypes with distinct patterns of sensitivity to serum neutralization.

Cheng‐Mayer

Homsy

Evans

et al. 1988

Proc. Natl. Acad. Sci. U.S.A.

131

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Serum enhancement of human immunodeficiency virus (HIV) infection correlates with disease in HIV-infected individuals

Homsy

Meyer

Levy

1990

J Virol

148

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The sera from 16 individuals infected with the human immunodeficiency virus (HIV) at different clinical stages were evaluated for antibody-dependent neutralization and/or enhancement of infectivity by HIV. The HIV isolate from each individual (homotypic) and established laboratory strains showing broad cellular host range and cytopathicity were used. All sera could neutralize one of the laboratory-passaged isolates, whereas only two could neutralize the corresponding homotypic strain. Seven homotypic isolates were enhanced by serum from the respective individual. This activity was primarily observed in patients with acquired immune deficiency syndrome. Moreover, the tropism for macrophages of four of these seven viral isolates was found to be enhanced by the homotypic sera. Finally, sequential pairs of HIV and sera obtained from five HIV-infected individuals with different clinical progression were studied over time. The enhancing activity of three of the five sera appeared to increase over time, indicating changes in both the host virus population and the type of antibodies produced. These results suggest that enhancing antibodies contribute to the spread and pathogenesis of HIV in vivo. They emphasize the necessity of studying further the association of enhancing antibodies and disease progression in infected individuals.

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Lymphocyte proliferative responses to human immunodeficiency virus antigens in vitro.

Krowka¹,

Stites²,

Jain³

et al. 1989

J. Clin. Invest.

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Jacques Homsy

The Fc and not CD4 Receptor Mediates Antibody Enhancement of HIV Infection in Human Cells

Identification of human immunodeficiency virus subtypes with distinct patterns of sensitivity to serum neutralization.

Serum enhancement of human immunodeficiency virus (HIV) infection correlates with disease in HIV-infected individuals

Lymphocyte proliferative responses to human immunodeficiency virus antigens in vitro.

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