Partial synergy of bisindolylmaleimide with apoptotic stimulus in antigen-specific T cells--implications for multiple sclerosis

Accelerating the induction of Fas-mediated T cell apoptosis: a strategy for transplant tolerance?

Acute allograft rejection is primarily a consequence of clonal expansion of donor-specific T cells with specificity for donor antigen. Immunosuppression current involves the administration of toxic drugs that limit lymphoproliferation, but this treatment is not antigen-specific and allows opportunistic infection. An ideal strategy would be production of donor-specific T cell tolerance in the presence of an otherwise intact and functional T cell repertoire. Methods to enhance normal apoptotic clearance of activated T cells might contribute to development of this state. This study focuses on manipulation in vitro of Fas-mediated T cell apoptosis and compares two methods to enhance the extent and kinetics for clearance of activated T cells. First, the CD4 coreceptor was cross-linked in the presence and absence of Fas-stimulation. It was found that CD4 cross-linking potently induced apoptosis, even in the absence of Fas stimulation. Resting and activated T cells were susceptible to this treatment, precluding the development of antigen-specific tolerance after T cell activation. In a second system, T cells were treated with two staurosporine analogues, Bisindolylmaleimide (Bis) III and VIII and apoptosis was induced by stimulation of Fas. Resting T cells remained resistant to Fas-mediated apoptosis, but treatment of mitogen or alloantigen-activated cells with either Bis III or VIII caused a synergistic increase in apoptosis. These agents also reduced the period of resistance to Fas-mediated apoptosis after T cell activation, possibly by reducing expression of c-FLIP, allowing early activation of caspase 8 in alloreactive T cells. Development of this strategy might provide a route to the induction of specific tolerance after organ transplantation.

Polyspecific immunoglobulins (IVIg) suppress proliferation of human (auto)antigen-specific T cells without inducing apoptosis

Polyspecific immunoglobulins (IVIg) have been shown to reduce disease activity in multiple sclerosis (MS). To investigate the mechanisms of action of IVIg, we studied the impact of IVIg on growth and death (apoptosis) of human (auto)antigen-specific T cells. We observed a substantial suppression of proliferation of specifically activated T cells, in absence of caspase activation or DNA fragmentation. Further, neither susceptibility of T cells to undergo CD95-mediated apoptosis nor expression of apoptosis-blocking bcl-2 was modulated by IVIg. We conclude that IVIg may inhibit the reactivity of antigen-specific T cells in MS through suppression of proliferation rather than modulation of apoptosis.