T lymphocytes are a promising cell vehicle for gene therapy purposes. By cocultivating retroviral vector producing cells and target cells, highly efficient gene transfer was achieved with activated human T lymphocytes derived from peripheral blood with vectors carrying different forms of the bacterial beta-galactosidase gene including the regular LacZ gene, the Sh-ble::LacZ gene and the nlsLacZ gene. Infection kinetics of T cells activated by a combination of monoclonal antibodies directed against CD2 and CD28 indicated that the highest efficiencies of transduction were obtained when the cocultivation began 4 days after stimulation. In fact, with the FLac vector, a new retroviral vector which expresses the Sh-ble::LacZ gene, we observed up to 78% transduction efficiency assessed by X-gal staining performed 2 days after the end of the cocultivation. Expression of the transduced genes was observed throughout the period of culture. Neither the cocultivation step nor the expression of the transduced Sh-ble::LacZ gene altered cell culture proliferation or the expression of selected cell surface antigens. In addition, we showed that CD4+ and CD8+ T cells were equally transduced.