Cell-cycle inhibition by independent CDK and PCNA binding domains in p21Cip1

Y Luo, J Hurwitz, J Massagué - Nature, 1995 - nature.com
Y Luo, J Hurwitz, J Massagué
Nature, 1995nature.com
MAMMALIAN cell-cycle control by antimitogenic signals involves p21Cip1/WAF1 (refs 1–4),
p27Kip1 (refs 5, 6) andp57Kip2 (refs 7, 8) a family of proteins that bind to and inhibit cyclin-
dependent kinases (CDKs) required for initiation of S phase. The protein p21 also binds to
the DNA polymerase δ processivity factor, proliferating-cell nuclear antigen (PCNA), and
inhibits in vitro PCNA-dependent DNA replication9, 10. The CDK and PCNA inhibitory
activities of p21 are shown here to be functionally independent and to reside in separate …
Abstract
MAMMALIAN cell-cycle control by antimitogenic signals involves p21Cip1/WAF1(refs 1–4), p27Kip1 (refs 5,6) andp57Kip2(refs 7,8) a family of proteins that bind to and inhibit cyclin-dependent kinases (CDKs) required for initiation of S phase. The protein p21 also binds to the DNA polymerase δ processivity factor, proliferating-cell nuclear antigen (PCNA), and inhibits in vitro PCNA-dependent DNA replication9,10. The CDK and PCNA inhibitory activities of p21 are shown here to be functionally independent and to reside in separate protein domains. The PCNA binding and inhibitory activities, which are not observed with p27 or p57, reside in the C-terminal domain of p21, whereas the CDK inhibitory activity resides in the conserved N-terminal domains of these proteins. When separately overexpressed in mammalian cells, the CDK and PCNA inhibitory domains prevent DNA replication, demonstrating a dual function of p21 as a cell-cycle inhibitor in vivo.
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