A simple, rapid, quantitative syncytium-forming microassay for the detection of human immunodeficiency virus (HIV-I) isolates is described. A virus-syncytial sensitive clone of CEM cells (CEM-SS) was identified and made adherent to flat bottom 96-well microtiter dishes. Following the addition of virus, these cells develop easily quantifiable, adherent syncytia on a background of confluent, normal CEM-SS monolayer in 4 to 6 days. One-hit kinetics for syncytia formation were obtained at various multiplicities of infection. Syncytia are associated with complete virion production and cytoplasmic localization of the p24 core protein (detected by immunofluorescence). Total infectious virus can be accurately determined in this assay; these results showed a close correlation with p24 and gp120 induction when microtiter well supernatants were passed to fresh cells and evaluated by competitive radioimmunoassay. Studies of p24 antigen induction at and beyond the end point of syncytia formation indicate that there are no detectable nonsyncytial variants in standard HIV-I stocks. Six divergent HIV-I isolates (HTLV-IIIB, -RFII, -MN, -RUTZ, -CC, and LAV-1), as well as HTLV-IIIB and LAV-1 reisolated from persistently infected chimpanzees, produce quantifiable syncytia which vary slightly in their developmental morphology. Accurate neutralization titers are readily obtained from easily constructed multiplicity curves derived from serial dilutions of test sera. Inherent within this system is a flexible method for studying various kinetics of antibody/virus interactions, as well as blocking and interference studies with any candidate antiviral compounds.
Benzylated derivatives of peptides corresponding to residues 81 through 92 of the CD4 molecule ] inhibit human immunodeficiency virus 1 (HIV-1)-induced cell fusion and infection in vitro. If such peptides are to be considered as candidates in the therapy of HIV infection, it is crucial to know if the anti-HIV efficacy of CD4-based peptides is limited to blockade of infection and virus-induced cell fusion or if other stages of the viral life cycle are affected by these compounds. Accordingly, an in vitro quantitative microassay for acute HIV infection was divided into two kinetic phases corresponding to the two general stages of the viral life cycle: (i) viral infection and (ii) transmission of virus and viral protein products through cell contact or release of free virions. CEM-SS cell cultures were treated with peptide during either the infection or the transmission phase of the assay. When peptides were present during the infection phase, inhibition of syncytium formation correlated with decreased expression of viral core protein p24 and lack of infectious cell centers when cells exposed to virus were washed and replated onto fresh uninfected indicator cells. These data are consistent with complete inhibition of viral infection when peptide is present only during initial exposure to virus. Unexpectedly, parallel inhibition of syncytium formation, decreased p24 levels, and inhibition of infectious cell center formation were also seen even when peptides were added as late as 48 hr after inoculation, during the transmission period of the assay. Since viral binding and penetration are completed well before 48 hr in this assay system, CD4-(81-92) peptide derivatives appear to exert a virostatic effect on cultures already infected with HIV-1, decreasing p24 production, cytopathicity, and cell-mediated infectivity.
Repeated immunizations of goats, horses, or chimpanzees with envelope glycoprotein gpl20 isolated from human immunodeficiency virus type 1 (HIV-1) resulted in type-specific neutralizing-antibody responses, which began to decay approximately 20 days following the administration of antigen. This was true repeatedly for serum samples from animals hyperimmunized with gpl20s from either the HTLV-IIIB (IIIB) or the envelope-divergent HTLV-IIIRF (RF) HIV-1 isolates. Animals previously immunized with the IIIB gpl20 were then inoculated with purified RF gpl20. The first response in these animals was an anamnestic resurgence of neutralizing antibody to IIIB without detectable neutralizing antibody for RF. However, with later RF gpl20 boosts, the IIIB neutralizing-antibody titers fell and an RF type-specific neutralizing-antibody response developed. When assessed with other HIV-1 variants, no group-specific neutralizing antibody was seen in any of the vaccination protocols evaluated. These results will pose real obstacles in the development of an effective vaccine for HIV.
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