EC:2.7.11.22 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Butyrolactone I is a selective inhibitor of the cyclin-dependent kinase (cdk) family. It inhibits both cdk2 and cdc2 kinase, but scarcely affects C-kinase, A-kinase, casein kinases, MAP kinase or EGF receptor-tyrosine kinase (Kitagawa et al., 1993, Oncogene, 8, 2425-2432). We studied the effects of butyrolactone I on the cell cycle as well as on phosphorylation of retinoblastoma protein (pRB). Butyrolactone I inhibited phosphorylation of pRB catalyzed by cyclin A-cdk2 produced by baculovirus in vitro. Furthermore, it inhibited phosphorylation of pRB and cell cycle progression from G1 to S phase in WI38 cell cultures. WI38 cells arrested at the G0 phase by serum starvation progressed in the cell cycle after serum stimulation. pRB was phosphorylated after 10 h serum stimulation. Incorporation of [3H]thymidine into the cells began to increase after 16 h serum stimulation. These processes were inhibited by butyrolactone I. Flow cytometric analysis showed that exposure to butyrolactone I inhibited progression of the cell cycle from G1 to S phase. These data suggested that initiation of DNA synthesis was inhibited by butyrolactone I and that the cell cycle was arrested in the G1 phase. Butyrolactone I also inhibited H1 histone phosphorylation in human WI38 cells and their G2/M progression. tsFT210 cells, a temperature-sensitive cdc2 mutant cell line, were synchronized at G2/M at a nonpermissive temperature, butyrolactone I inhibited the cell cycle progression of these cells at G2/M at the permissive temperature. Thus butyrolactone I, a cyclin-dependent kinase family inhibitor, which prevented the phosphorylations of the cell cycle-regulating proteins pRB and H1 histone, inhibited the cell cycle at G1/S and G2/M, respectively. These results suggest that the phosphorylations of pRB and H1 histone may play crucial roles in G1/S and G2/M progression, respectively, although it is possible that phosphorylations of other proteins by cdks are involved in G1/S and G2/M progression.
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PMID:A cyclin-dependent kinase inhibitor, butyrolactone I, inhibits phosphorylation of RB protein and cell cycle progression. 805 18

Phosphorylation by the CDK-activating kinase (CAK) is a required step in the activation of cyclin-dependent kinases. We have purified CAK from mammalian cells; the enzyme comprises two major polypeptides of 42 and 37 kDa. Protein sequencing indicates that the 42 kDa subunit is the mammalian homolog of MO15, a protein kinase known to be a component of CAK in amphibians and echinoderms. Cloning of a cDNA encoding the 37 kDa subunit identifies it as a novel cyclin (cyclin H). We have reconstituted CAK in vitro with the MO15 catalytic subunit and cyclin H, demonstrating that MO15 is a cyclin-dependent kinase (CDK7). Like other CDKs, MO15/CDK7 contains a conserved threonine required for full activity; mutation of this residue severely reduces CAK activity. The CAK holoenzyme activates complexes of CDK2 and CDC2 with various cyclins and also phosphorylates CDK2, but not CDC2, in the absence of cyclin. Thus, CAK is a CDK-cyclin complex implicated in the control of multiple cell cycle transitions.
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PMID:A novel cyclin associates with MO15/CDK7 to form the CDK-activating kinase. 806 18

The eukaryotic cell cycle is regulated by the sequential activation of cyclin-dependent kinases (CDKs). CDK activation is dependent on cyclin binding and phosphorylation of a conserved threonine (T161 in Cdc2) mediated by the CDK-activating kinase CAK. A CDK-related kinase, MO15 (ref. 10), has been identified as the catalytic subunit of CAK (refs 11-13). Here we use a yeast two-hybrid screen to show that a new human cyclin (cyclin H) is a MO15-associated protein. Cyclin H is a major MO15 partner in vivo and enhances the kinase activity of MO15 towards Cdk2/cyclin A. These findings demonstrate that a cyclin/kinase complex can function as a regulator of other cyclin/kinase complexes, and suggest that cyclin/kinase cascades may exist.
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PMID:A cyclin associated with the CDK-activating kinase MO15. 807 87

A family of vertebrate cdc2-related kinases has been identified, and these kinases are candidates for roles in cell cycle regulation. Here, we show that the human PLSTIRE gene product is a novel cyclin-dependent kinase, cdk6. The cdk6 kinase is associated with cyclins D1, D2, and D3 in lysates of human cells and is activated by coexpression with D-type cyclins in Sf9 insect cells. Furthermore, we demonstrate that endogenous cdk6 from human cell extracts is an active kinase which can phosphorylate pRB, the product of the retinoblastoma tumor suppressor gene. The activation of cdk6 kinase occurs during mid-G1 in phytohemagglutinin-stimulated T cells, well prior to the activation of cdk2 kinase. This timing suggests that cdk6, and by analogy its homolog cdk4, links growth factor stimulation with the onset of cell cycle progression.
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PMID:Identification of G1 kinase activity for cdk6, a novel cyclin D partner. 811 39

The expression and/or up-regulation of several early T cell activation genes is dependent on signals transmitted through the interaction of IL-2 and IL-2R well before entry of the cells into S phase. In these studies, murine G0 T cells activated by immobilized anti-CD3 and subsequently blocked in late G1 expressed normal surface levels and mRNA for IL-2R alpha, IL-2R beta, and transferrin receptor (TfR). However, there was no expression of p34cdc2, and cyclin-dependent kinase (cdk)-2 was not up-regulated even in the presence of exogenous rIL-2. In addition the accumulation of c-myc-specific mRNA and protein was significantly reduced. Pretreatment of G0 T cells with c-myc antisense oligonucleotide effectively reduced the level of specific c-myc protein induced by activation of the cells by immobilized anti-CD3. The presence of antisense c-myc oligonucleotide inhibited the expression of cdc2 and cdk2 without affecting the expression of IL-2R alpha and blocked the activated T cells in the G1 phase. Together these studies demonstrate that c-myc regulates the expression of these cdk and suggest a role for c-myc in the G1/S transition.
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PMID:Up-regulation of c-myc induces the gene expression of the murine homologues of p34cdc2 and cyclin-dependent kinase-2 in T lymphocytes. 815 56

The identification of numerous cyclin-dependent kinases (cdk) and G1 cyclins suggests that cell cycle progression through G1/S may be controlled in a tissue-specific manner by various cdk/cyclin complexes. In situ hybridization was used to characterize expression of the cyclin-dependent kinase cdk4 in prenatal and postnatal rat lung and other tissues and to determine whether cdk4 expression is limited to proliferating cells, identified by BrdU incorporation and cdk1 mRNA expression. cdk4 co-localized with cdk1 in proliferating cells of both prenatal and postnatal lung and other tissues, consistent with an SPF function that is not tissue-specific. The distribution of cdk1 and cdk4 expression was identical in fetal rat tissues and was detected in lung parenchyma and throughout the airway. Pulmonary cell proliferation declined with increasing postnatal age and could be found only in focal areas of day 21 terminal and respiratory bronchiolar epithelium. Proliferation was undetectable in adult lung. Postnatal cdk4 expression was not restricted to cells expressing cdk1: cdk4 was evenly distributed in bronchiolar epithelium and was present throughout the airway and alveolar septae of day 21 lung. Expression of cdk4 was also maintained in adult bronchiolar epithelium. These studies demonstrate that although the expression of cdk1 is tightly correlated with proliferative capacity, the expression of cdk4 is not limited to proliferating cells, suggesting that cdk4 may have additional cell-specific functions unrelated to cell cycle progression.
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PMID:Expression of the cyclin-dependent kinase cdk4 in perinatal and adult rat lung. 821 95

The cyclin-dependent kinase Cdk2 associates with cyclins A, D, and E and has been implicated in the control of the G1 to S phase transition in mammals. To identify potential Cdk2 regulators, we have employed an improved two-hybrid system to isolate human genes encoding Cdk-interacting proteins (Cips). CIP1 encodes a novel 21 kd protein that is found in cyclin A, cyclin D1, cyclin E, and Cdk2 immunoprecipitates. p21CIP1 is a potent, tight-binding inhibitor of Cdks and can inhibit the phosphorylation of Rb by cyclin A-Cdk2, cyclin E-Cdk2, cyclin D1-Cdk4, and cyclin D2-Cdk4 complexes. Cotransfection experiments indicate that CIP1 and SV40 T antigen function in a mutually antagonistic manner to control cell cycle progression.
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PMID:The p21 Cdk-interacting protein Cip1 is a potent inhibitor of G1 cyclin-dependent kinases. 824 51

The retinoblastoma gene product (Rb) can interact efficiently with two of three D-type G1 cyclins (D2 and D3) in vitro. Binding depended upon the minimal regions of Rb necessary for its growth-suppressive activity, as well as upon the D-type cyclin sequence motif shared with Rb-binding DNA tumor virus oncoproteins. Coexpression of the three D-type cyclins with the cyclin-dependent kinase (cdk4) in insect cells generated Rb kinase activity. By contrast, cyclins D2 and D3, but not D1, activated another such kinase, cdk2. Introduction of cyclin D2 and Rb into the Rb-deficient cell line SAOS-2 led to overt Rb hyperphosphorylation, whereas Rb, expressed alone or together with cyclin D1, remained unphosphorylated. Cyclin D2-dependent phosphorylation inhibited its binding to the transcription factor E2F and reversed the Rb G1 exit block in the cell cycle. Thus, all D-type cyclins do not function equivalently, and one of them plays a major role in reversing the cycle-blocking function of a known tumor suppressor.
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PMID:Functional interactions of the retinoblastoma protein with mammalian D-type cyclins. 834 2

The differential activation of cyclin and cyclin-dependent kinase genes by the adenovirus E1A gene product (E1A) or serum factors was studied with a rat 3Y1 derivative cell line, g12-21, in which the E1A12S cDNA can be expressed in response to dexamethasone (dex). The induction of DNA synthesis in quiescent g12-21 cells occurred within 12 h after serum stimulation, while it occurred within 8 h after treatment with dex. The expression of cyclin D1 and E genes in the serum-stimulated cells was induced in mid G1 and mid to late G1, respectively, while that of the cyclin D1 gene was not induced and the induction of the cyclin E gene was shifted to the G1/S boundary in the dex-treated cells. The cdk2 gene was induced in late G1 and cdc2 and cyclin A genes at the G1/S boundary in both serum-stimulated and dex-treated cells. These results suggest that E1A skips cell cycle events which normally occur in early to mid G1 and may directly activate late-response genes. Analysis of the transcription factor E2F complexes formed in the promoter regions of cdc2 and dihydrofolate reductase genes showed that the amount of complexes formed is maximal at the G1/S boundary, but decreases in S phase when these genes are transcribed extensively.
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PMID:Differential activation of cyclin and cyclin-dependent kinase genes by adenovirus E1A12S cDNA product. 837 70

Transforming growth factor beta 1 (TGF beta 1) causes G1 growth arrest and the accumulation of unphosphorylated retinoblastoma protein (Rb) in responsive cells. Cdk4 (cyclin-dependent kinase), a major catalytic subunit of the mammalian D-type G1 cyclins, can phosphorylate Rb in vitro, and at least one D-type cyclin, D2, directs the phosphorylation of Rb in vivo. Here we show that TGF beta 1 induces suppression of cdk4 synthesis in G1 in mink lung epithelial cells. Constitutive cdk4 synthesis in these cells led to TGF beta 1 resistance. It also resulted in growth in low serum medium when these cells were released from contact inhibition. Cdk2 activity was also suppressed by TGF beta 1 action, but its constitutive expression failed to override a TGF beta 1-induced G1 block. Hence, the TGF beta 1 block is primarily mediated by cdk4 modulation. Further evidence suggests that TGF beta 1-induced down-modulation of cdk4 leads to inhibition of cdk2 activation and that both events might contribute to TGF beta 1 growth suppression.
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PMID:TGF beta inhibition of Cdk4 synthesis is linked to cell cycle arrest. 840 78

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