Rapid and selective depletion of CD4+ T lymphocytes and preferential loss of memory cells on interaction of mononuclear cells with HIV-1 glycoprotein-expressing cells.

Contact of HIV glycoprotein-expressing cells with CD4+ T lymphocytes in vitro causes cell-cell fusion and/or cytopathogenicity. The question of whether this process similarly underlies the death of helper T cells in vivo has not yet been resolved. To investigate the loss of uninfected CD4+ T cells in an environment that may reflect the in vivo situation, unfractionated, unstimulated peripheral blood mononuclear cells were cocultured with HIV-1 glycoprotein-expressing cells, and early alterations of T-cell numbers were quantitated using a newly developed quantitative flow cytometric assay. The results demonstrate that a large fraction of normal-sized, regular CD4+ T cells disappeared immediately on cocultivation with envelope glycoprotein-expressing cells. In contrast, CD8+ T lymphocytes remained unaffected. Significant loss of uninfected T-helper cells required the presence of less than 1% infected cells. Moreover, memory T cells (CD45RO+, CD29 hi+) were depleted more rapidly than naive cells (CD45RO-, CD29 lo+). The observation that a large fraction of intact primary T-helper cells disappeared on contact with HIV glycoprotein-expressing cells suggests that a similar process may occur in vivo and contribute to the loss of T-helper cells in the infected individual. In addition, the preferential loss of memory cells may account for the early loss of immune functions in the course of HIV infection.