We show that p27 localization is cell cycle regulated and we suggest that active CRM1/RanGTPmediated nuclear export of p27 may be linked to cytoplasmic p27 proteolysis in early G1. p27 is nuclear in G0 and early G1 and appears transiently in the cytoplasm at the G1/S transition. Association of p27 with the exportin CRM1 was minimal in G0 and increased markedly during G1-to-S phase progression. Proteasome inhibition in mid-G1 did not impair nuclear import of p27, but led to accumulation of p27 in the cytoplasm, suggesting that export precedes degradation for at least part of the cellular p27 pool. p27-CRM1 binding and nuclear export were inhibited by S10A mutation but not by T187A mutation. A putative nuclear export sequence in p27 is identified whose mutation reduced p27-CRM1 interaction, nuclear export, and p27 degradation. Leptomycin B (LMB) did not inhibit p27-CRM1 binding, nor did it prevent p27 export in vitro or in heterokaryon assays. Prebinding of CRM1 to the HIV-1 Rev nuclear export sequence did not inhibit p27-CRM1 interaction, suggesting that p27 binds CRM1 at a non-LMB-sensitive motif. LMB increased total cellular p27 and may do so indirectly, through effects on other p27 regulatory proteins. These data suggest a model in which p27 undergoes active, CRM1-dependent nuclear export and cytoplasmic degradation in early G1. This would permit the incremental activation of cyclin E-Cdk2 leading to cyclin E-Cdk2-mediated T187 phosphorylation and p27 proteolysis in late G1 and S phase.
INTRODUCTIONThe Cdk inhibitor p27 is an important regulator of G1 progression. It is highly expressed in G0, where it binds tightly and inhibits cyclin E-Cdk 2 Polyak et al., 1994;Slingerland et al., 1994). In mid-G1, p27 also plays a role in the assembly and nuclear import of D-type cyclinCdk complexes (LaBaer et al., 1997;Cheng et al., 1999). p27 levels are regulated by translational controls and by proteolysis, and decrease as cells progress from G1 to S phase (Hengst and Reed, 1996;Millard et al., 1997;Slingerland and Pagano, 2000). The ubiquitin-dependent proteolysis of p27 (Pagano et al., 1995) is regulated by its phosphorylation at threonine 187 (T187) by cyclin E-Cdk 2 in late G1 and S phase (Sheaff et al., 1997;Vlach et al., 1997;Montagnoli et al., 1999). T187 phosphorylation allows recognition of p27 by its SCF-type E3 ligase, comprised of Skp1, Cul1, and the F-box protein, Skp2 and Roc1 and the Cks1 cofactor Ohta et al., 1999;Sutterluty et al., 1999;Tsvetkov et al., 1999;Ganoth et al., 2001;Spruck et al., 2001). Recent evidence suggests that p27 proteolysis is regulated by at least two distinct mechanisms, with mitogenic signaling conditioning p27 for degradation in early G1 in a manner independent of T187 phosphorylation (Hara et al., 2001;Malek et al., 2001), whereas Skp2-dependent cyclin E-Cdk 2-mediated degradation occurs in S phase after T187 phosphorylation (Malek et al., 2001). Although p27 is detected in the nuclei of most normal quiescent cells (Slingerland and Pagano, 2000), the relationship between its int...
