Monoclonal antibodies to p24-core protein of HIV-1 mediate ADCC and inhibit virus spread in vitro

Abstract

Certain antigens of the HIV-1, e.g., gp120-envelop proteins, can be expressed on the membrane of HIV-infected cells. Little is known about the membrane expression of other HIV-antigens and their interaction with specific antibodies. To develop murine monoclonal antibodies (mAbs) to the p24-core protein of HIV-1 and to characterise their binding sites and biological activities on HIV-infected T cells. Monoclonal antibodies were developed from mice hyperimmunised with a recombinant p24-core protein from HIV-1. Two mAbs were epitope-mapped on overlapping peptides and characterised for their reactivity with non-fixed HIV-infected T cells by immunofluorescence staining and flow cytometric analysis. Their biological activities were studied for antibody-dependent cellular cytotoxicity (ADCC) and suppression of viral spread in vitro. The epitopes of two selected mAbs were located on the amino terminal region of p24 in the regions 147-152 aa and 178-187 aa, respectively. The antibodies were able to react with living HIV-1 infected cells. The expression of the antigens was time-dependent after the infection of certain cell lines by HIV-1. The mAbs mediated a strong HIV-1-specific ADCC and were able to delay the spread of HIV-1 for about 6 days in cell cultures. Certain epitopes of the p24-core protein of HIV-1 can be expressed on living, HIV-infected T cells and are recognised by specific antibodies. Such antibodies can destroy infected cells by ADCC or delay the virus spread, and therefore, should be considered in immunisation strategies against HIV.