BACKGROUND: The cyclin-dependent kinase (cdk) inhibitor p21 inhibits cellular proliferation of many cell types, including T cells. Autoimmune models, however, have yielded conflicting results regarding the role of cdk inhibitors and T-cell function. The role of p21 in T-cell function after transplantation has not been investigated directly. We hypothesized that p21 plays an important role in alloantigen-driven responses in vitro in mixed lymphocyte cultures (MLC) and in vivo using the heterotopic murine cardiac allograft model. METHODS: Wild type (WT) and p21-deficient (p21-/-) mice were used as recipients, and the effects of p21 overexpression were assessed by transplanting p21 adenoviral-transfected cardiac allografts. Enzyme-linked immunospot (ELISPOT) and 3H-thymidine incorporation were used to evaluate for T-cell priming and proliferation in vitro, whereas graft histology was evaluated for rejection. RESULTS: When stimulated with alloantigens in vitro, splenocytes from p21-/- mice mounted enhanced proliferative responses and decreased Th2 responses relative to their WT counterparts. No differences in Th1 responses were noted when p21-/- cells were stimulated with alloantigens in vitro; however, after cardiac transplantation, Th1 responses were enhanced in p21-/- recipients relative to WT mice. This enhanced in vivo Th1 response was associated with exacerbated graft rejection in p21-/- recipients. Interestingly, p21 transfection of WT allografts inhibited graft rejection and Th1 priming. CONCLUSIONS: p21 controls the intensity of the immune response posttransplantation, with overexpression inhibiting allograft rejection. Our data demonstrate that p21 controls T-cell priming and suggest that p21 and other cdk inhibitors may serve as potential targets for therapeutic manipulation of alloimmune responses.
BACKGROUND: The cyclin-dependent kinase (cdk) inhibitor p21 inhibits cellular proliferation of many cell types, including T cells. Autoimmune models, however, have yielded conflicting results regarding the role of cdk inhibitors and T-cell function. The role of p21 in T-cell function after transplantation has not been investigated directly. We hypothesized that p21 plays an important role in alloantigen-driven responses in vitro in mixed lymphocyte cultures (MLC) and in vivo using the heterotopic murine cardiac allograft model. METHODS: Wild type (WT) and p21-deficient (p21-/-) mice were used as recipients, and the effects of p21 overexpression were assessed by transplanting p21 adenoviral-transfected cardiac allografts. Enzyme-linked immunospot (ELISPOT) and 3H-thymidine incorporation were used to evaluate for T-cell priming and proliferation in vitro, whereas graft histology was evaluated for rejection. RESULTS: When stimulated with alloantigens in vitro, splenocytes from p21-/- mice mounted enhanced proliferative responses and decreased Th2 responses relative to their WT counterparts. No differences in Th1 responses were noted when p21-/- cells were stimulated with alloantigens in vitro; however, after cardiac transplantation, Th1 responses were enhanced in p21-/- recipients relative to WT mice. This enhanced in vivo Th1 response was associated with exacerbated graft rejection in p21-/- recipients. Interestingly, p21 transfection of WT allografts inhibited graft rejection and Th1 priming. CONCLUSIONS:p21 controls the intensity of the immune response posttransplantation, with overexpression inhibiting allograft rejection. Our data demonstrate that p21 controls T-cell priming and suggest that p21 and other cdk inhibitors may serve as potential targets for therapeutic manipulation of alloimmune responses.
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