p21Cip1 and p27Kip1 act in synergy to alter the sensitivity of naive T cells to TGF-β-mediated G1 arrest through modulation of IL-2 responsiveness

Induction of G, arrest by TGF-beta correlates with the regulation of p21(clip1) and p27(Kip1), members of the Cip/Kip family of cyclin-dependent kinase inhibitors (cki). However, no definitive evidence exists that these proteins play a causal role in TGF-beta(1)-induced growth arrest in lymphocytes. In this report we show the suppression of cell cycle progression by TGF-beta is diminished in T cells from mice deficient for both p21(Cip1) and p27(Kip1) (double-knockout (DKO)) only when activated under conditions of optimal costimulation. Although there is an IL-2-dependent enhanced proliferation of CD8(+) T cells from DKO mice, TGF-beta is able to maximally suppress the proliferation of DKO T cells when activated under conditions of low costimulatory strength. We also show that the induction of p15(Ink4b) in T cells stimulated in the presence of TGF-beta is not essential, as TGF-beta also efficiently suppressed proliferation of T cells from p15(Ink4b-/-) mice. Finally, although these cki are dispensable for the suppression of T cell proliferation by TGF-beta, we now describe a Smad3-dependent down-regulation of cdk4, suggesting a potential mechanism underlying to resistance of Smad3(-/-) T cells to the induction of growth arrest by TGF-beta. In summary, the growth suppressive effects of TGF-beta in naive T cells are a function of the strength of costimulation, and alterations in the expression of cki modify the sensitivity to TGF-beta by lowering thresholds for a maximal mitogenic response.