Loss of serum antibodies to a conformational epitope of HIV-1/gp120 identified by a human monoclonal antibody is associated with disease progression.

Serum antibody reactive with epitopes within the CD4 binding site (CD4BS) of HIV-1/gp120 on infected cells was measured by inhibition of binding of a human monoclonal antibody, F105, which recognizes a conformational epitope within this region. Serum samples from 27% of ARC/AIDS patients blocked binding of F105 to this epitope, while samples from 100% of asymptomatic seropositive patients blocked binding. F105 blocking activity increased in 87% of asymptomatic donors who maintained stable disease over a 3-6 year period and decreased in 50% of asymptomatic patients with progressive disease. Moreover, serum samples from patients with stable disease exhibited higher titers of F105 blocking activity. The presence of F105 blocking activity also correlated with serum neutralization of virus. When diluted 1:640, serum with low F105 blocking activity neutralized only 20-30% of viral cytopathic effect (CPE), while serum with high F105 blocking activity neutralized > 80%. Serum neutralization was enhanced by the addition of F105. Seroreactivity to infected cells was detectable within 6 months of seroconversion, but F105 blocking activity was delayed by an additional 6-12 months, as was the development of high titers of neutralizing antibody. These data support the notion that the humoral response to the CD4BS on gp120 may be important in the maintenance of health.