EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transforming growth factor beta s (TGF-beta s) are a group of multifunctional growth factors that inhibit cell cycle progression in many cell types. The TGF-beta-induced cell cycle arrest has been partially attributed to the regulatory effects of TGF-beta on both the levels and activities of the G1 cyclins and their cyclin-dependent kinase partners. The ability of TGF-beta to inhibit the activity of these kinase complexes derives in part from its regulatory effects on the cyclin-dependent kinase inhibitors, p21/WAF1/Cip1, p27Kip1, and p15. Upon treatment of cells with TGF-beta, these three inhibitors bind to and block the activities of specific cyclin-cyclin-dependent kinase complexes to cause cell cycle arrest. Little is known, however, on the mechanism through which TGF-beta activates these cyclin-dependent kinase inhibitors. In the case of p21, TGF-beta treatment leads to an increase in p21 mRNA. This increase in p21 mRNA is partly due to transcriptional activation of the p21 promoter by TGF-beta. To further define the signaling pathways through which TGF-beta induces p21, we have performed a detailed functional analysis on the p21 promoter. Through both deletion and mutation analysis of the p21 promoter, we have defined a 10-base pair sequence that is required for the activation of the p21 promoter by TGF-beta. In addition, this sequence is sufficient to drive TGF-beta-mediated transcription from a previously nonresponsive promoter. Preliminary gel shift assays demonstrate that this TGF-beta responsive element binds specifically to several proteins in vitro. Two of these proteins are the transcription factors Sp-1 and Sp-3. These studies represent the initial steps toward defining the signaling pathways involved in TGF-beta-mediated transcriptional activation of p21.
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PMID:Functional analysis of the transforming growth factor beta responsive elements in the WAF1/Cip1/p21 promoter. 749 79

Peripheral blood T lymphocytes require two sequential mitogenic signals to reenter the cell cycle from their natural, quiescent state. One signal is provided by stimulation of the T-cell antigen receptor, and this induces the synthesis of both cyclins and cyclin-dependent kinases (CDKs) that are necessary for progression through G1. Antigen receptor stimulation alone, however, is insufficient to promote activation of G1 cyclin-Cdk2 complexes. This is because quiescent lymphocytes contain an inhibitor of Cdk2 that binds directly to this kinase and prevents its activation by cyclins. The second mitogenic signal, which can be provided by the cytokine interleukin 2, leads to inactivation of this inhibitor, thereby allowing Cdk2 activation and progression into S phase. Enrichment of the Cdk2 inhibitor from G1 lymphocytes by cyclin-CDK affinity chromatography indicates that it may be p27Kip1. These observations show how sequentially acting mitogenic signals can combine to promote activation of cell cycle proteins and thereby cause cell proliferation to start. CDK inhibitors have been shown previously to be induced by signals that negatively regulate cell proliferation. Our new observations show that similar proteins are down-regulated by positively acting signals, such as interleukin 2. This finding suggests that both positive and negative growth signals converge on common targets which are regulators of G1 cyclin-CDK complexes. Inactivation of G1 cyclin-CDK inhibitors by mitogenic growth factors may be one biochemical pathway underlying cell cycle commitment at the restriction point in G1.
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PMID:Inactivation of a Cdk2 inhibitor during interleukin 2-induced proliferation of human T lymphocytes. 751 74

Mammalian cell-cycle control by antimitogenic signals involves p21Cip1/WAF1 (refs 1-4), p27Kip1 (refs 5, 6) and p57Kip2 (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 delta processivity factor, proliferating-cell nuclear antigen (PCNA), and inhibits in vitro PCNA-dependent DNA replication. 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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PMID:Cell-cycle inhibition by independent CDK and PCNA binding domains in p21Cip1. 775 74

The cloning of the negative growth regulatory gene, p21Sdi1, has led to the convergence of the fields of cellular senescence, cell cycle regulation and tumor suppression. This gene was first cloned as an inhibitor of DNA synthesis that was overexpressed in terminally non-dividing senescent human fibroblasts (SD11) and later as a p53 transactivated gene (WAF1) and a Cdk-interacting protein (CIP1, p21) that inhibited cyclin-dependent kinase activity. To identify the active region(s) of p21Sdi1, cDNA constructs encoding various deleted forms of the protein were analyzed. Amino acids 22-71 were found to be the minimal region required for DNA synthesis inhibition. Amino acids 49-71 were involved in binding to Cdk2, and constructs deleted in this region expressed proteins that were unable to inhibit Cdk2 kinase activity in vitro. The latter stretch of amino acids shared sequence similarity with amino acids 60-76 of the p27Kip1 protein, another Cdk inhibitor. Point mutations made in p21Sdi1 in this region confirmed that amino acids common to both proteins were involved in DNA synthesis inhibition. Additionally, a chimeric protein, in which amino acids 49-65 of p21Sdi1 were substituted with amino acids 60-76 of p27Kip1, had almost the same DNA synthesis inhibitory activity as the wild-type protein. The results indicate that the region of sequence similarity between p21Sdi1 and p27Kip1 encodes an inhibitory motif characteristic of this family of Cdk inhibitors.
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PMID:Identification of the active region of the DNA synthesis inhibitory gene p21Sdi1/CIP1/WAF1. 785 44

The p27Kip1 (p27) gene encodes an inducible inhibitor of cyclin-dependent kinase activity. Using a murine p27 cDNA as probe, we obtained a human cDNA clone and subsequently used it to isolate a genomic clone of this gene. The coding region of the human p27 gene was contained in two exons. Both the amino acid sequence and intron-exon organization of p27 were similar to those previously found for the related cyclin-dependent kinase inhibitor p21Waf1 (p21). The p27 gene was localized to chromosome band 12p13 by a combination of somatic cell hybrid and fluorescence in situ hybridization analyses. The p27 gene product is thought to control the leukocyte cell cycle and the 12p13 chromosomal band is known to be deleted in leukemias, suggesting that the p27 gene may act as a tumor suppressor gene in leukemias. Although p27 was found to reside in the minimal region of chromosomal loss in hematological malignancies, no mutations of p27 were observed in leukemia samples. Haploinsufficiency of p27 may confer a growth advantage to leukemia cells.
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PMID:Assignment of the human p27Kip1 gene to 12p13 and its analysis in leukemias. 788 9

Transforming growth factor (TGF-beta)-stimulated induction of DNA synthesis is preceded by the activation of cyclin E/cyclin-dependent kinase (cdk)2 kinase in late G1 in C3H 10T1/2 mouse fibroblasts. TGF-beta has no effect on the steady-state level of cdk4, while having only a modest inductive effect on cyclin D1 expression. TGF-beta stimulation does, however, lead to the striking down-regulation of p27Kip1 expression during G1 in a manner consistent with the timing of cyclin E-cdk2 activation. Coimmunoprecipitation analysis reveals that the amount of p27Kip1 in complexes with the cdk2 catalytic subunit is drastically reduced at the time in late G1 when cyclin E-cdk2 activity is maximal. These data indicate that cyclin E-cdk2 is inhibited by p27Kip1 in the growth-arrested state and that TGF-beta relieves this inhibition by down-regulating the steady-state level of the p27Kip1 inhibitor protein, thus reducing the level of inhibitor present in complexes with cdk2.
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PMID:Transforming growth factor beta-induced activation of cyclin E-cdk2 kinase and down-regulation of p27Kip1 in C3H 10T1/2 mouse fibroblasts. 788 44

The cyclin-dependent kinase (Cdk) enzymes, when associated with the G1 cyclins D and E, are rate-limiting for entry into the S phase of the cell cycle. During T-cell mitogenesis, antigen-receptor signalling promotes synthesis of cyclin E and its catalytic partner, Cdk2, and interleukin-2 (IL-2) signalling activates cyclin E/Cdk2 complexes. Rapamycin is a potent immunosuppressant which specifically inhibits G1-to-S-phase progression, leading to cell-cycle arrest in yeast and mammals. Here we report that IL-2 allows Cdk activation by causing the elimination of the Cdk inhibitor protein p27Kip1, and that this is prevented by rapamycin. By contrast, the Cdk inhibitor p21 is induced by IL-2 and this induction is blocked by rapamycin. Our results show that p27Kip1 governs Cdk activity during the transition from quiescence to S phase in T lymphocytes and that p21 function may be restricted to cycling cells.
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PMID:Interleukin-2-mediated elimination of the p27Kip1 cyclin-dependent kinase inhibitor prevented by rapamycin. 799 Sep 32

Using a yeast interaction screen to search for proteins that interact with cyclin D1-Cdk4, we identified a 27 kDa mouse protein related to the p21 cyclin-Cdk inhibitor. p27 interacts strongly with D-type cyclins and Cdk4 in vitro and more weakly with cyclin E and Cdk2. In mouse fibroblasts, p27 is associated predominantly with cyclin D1-Cdk4. Recombinant p27 is a potent inhibitor of cyclin D1-Cdk4 and cyclin A-Cdk2 protein kinase activity and a weaker inhibitor of cyclin B1-Cdc2. Overexpression of p27 in Saos-2 cells causes G1 arrest. p27 protein levels do not change as serum-stimulated quiescent mouse fibroblasts progress through the cell cycle. p27 is identical to p27Kip1, a cyclin-Cdk inhibitor present in TGF beta-treated cells. p27 has the hallmarks of a negative regulator of G1 progression and may mediate TGF beta-induced G1 arrest.
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PMID:p27, a novel inhibitor of G1 cyclin-Cdk protein kinase activity, is related to p21. 803 13

CDKN4/p27Kip1 is a cyclin-dependent kinase (Cdk) inhibitor implicated in G1 phase arrest, which negatively regulates G1 phase progression in response to TGF beta, and might represent a tumor suppressor gene. We report here the chromosomal assignment of the human CDKN4 gene to chromosome 12p12.3 in close proximity to highly polymorphic microsatellite markers.
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PMID:Localization of the CDKN4/p27Kip1 gene to human chromosome 12p12.3. 852 24

Progression of mammalian cells through G1 is controlled by the concerted action of protein kinases, the activities of which are modulated in both positive (cyclins) and negative [cyclin-dependent kinase inhibitors (CDIs)] manners by families of regulatory proteins. In differentiation of leukemia cells, a G1 arrest is a common, if not invariable, occurence and takes place after the appearance of markers of monocytic differentiation in human leukemia HL60 cells treated with 1,25 dihydroxyvitamin D3 (1,25D3) at low to moderately high concentrations (F. Zhang et al., Cell Proliferation 27: 643-654, 1994). In the present study, we investigated the protein levels of several G1 regulatory proteins that are potential mediators of the 1,25D3-induced G1 block. During the first 24 h of exposure to a high concentration (4 x 10(-7) M) of 1,25D3, no increase was noted in the immunodetectable levels of cyclins D1 or E, or CDIs p16Ink4, p21Cip1/Waf1, or p27Kip1, even though monocytic differentiation markers were evident, and a prolongation of G1 was noted. After 48 h of exposure 4 x 10(-7) M to 1,25D3, a G1 to S-phase block progressively increased in parallel with the abundance of the p27Kip1 CDI. A transient increase in p21Cip1/Waf1 was noted only at 48 hr. The increase in p27Kip1 protein level was dependent on the concentration of 1,25D3 and was accompanied by an increase in cyclin D and E proteins, which normally peak in mid-G1 and at the G1 to S-phase transition, respectively. These results indicate that p27Kip1 protein is a strong candidate for the cell cycle regulator that blocks the entry into the S-phase in 1,25D3-treated HL60 cells.
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PMID:Cyclin-dependent kinase inhibitor p27 as a mediator of the G1-S phase block induced by 1,25-dihydroxyvitamin D3 in HL60 cells. 854 78

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