Flow cytometry analysis of cell population dynamics and cell cycle during HIV-1 envelope-mediated formation of syncytia in vitro.

Cell fusion occurs in physiological and pathological conditions and plays a role in regulation of cell fate. The analysis of cell population dynamics and cell cycle in cell-cell fusion experiments is necessary to determine changes in the quantitative equilibrium of cell populations and to identify potential bystander effects. Here, using cocultures of Jurkat HIV-1 envelope expressing cells and CD4(+) cells as a model system and flow cytometry for the analysis, the number, viability, and cell cycle status of the populations participating in fusion were determined.

HIV-envelope-dependent cell-cell fusion: quantitative studies.

Interaction in vitro between cells infected with human immunodeficiency virus (HIV) and surrounding, uninfected, target cells often leads to cell fusion and the formation of multinucleated cells, called syncytia. The presence in HIV-infected individuals of virus strains able to induce syncytia in cultures of T cells is associated with disease progression and AIDS. Even in the asymptomatic stage of infection, multinucleated cells have been observed in different organs, indicating that fused cells may be generated and remain viable in the tissues of patients.