UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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To study the effect of several cyclins on cyclin B1 promoter activation, we co-transfected cyclin A. cyclin E and cyclin D1 expressing plasmids with a cyclin B1 promoter construction driving a luciferase reporter gene into NIH 3T3 cells. All three cyclins produced activation of the reporter gene, however, co-transfection of cyclin A with a Cdk2 dominant negative mutant blocks activation by cyclin A. Our results suggest that cyclin B1 activation depends on Cdk2 kinase activity associated to cyclin A. To our knowledge this is the first report showing positive effect of cyclin A, cyclin E and cyclin D1 on cyclin B1 activation and blocking of this activation by a Cdk2 dominant negative mutant.
Biochem Mol Biol Int 1997 Apr
PMID:Effect of cyclins and Cdks on the cyclin B1 promoter activation. 913 22

Neuronal Cdk5 activator (Nck5a) differs from other cyclin-dependent kinase (Cdk) activators in that its amino acid sequence is only marginally similar to the cyclin consensus sequence. Nevertheless, computer modeling has suggested that Nck5a contains the cyclin-fold motif recently identified in the crystal structure of cyclin A. In the present study, a number of truncation mutants and substitution mutants of the Nck5a were produced and tested for the Cdk5 activation and Cdk5 binding activity. The active domain of Nck5a determined by using the truncation mutants consists of the region spanning residues 150 to 291. The size of Nck5a active domain is essentially the same as that of cyclin A required for Cdk2 activation (Lees, E. M., and Harlow, E. (1993) Mol. Cell. Biol. 13, 1194-1201). The change, or the lack of change, in Cdk5 activation activity observed with a number of substitution mutants may be understood on the basis of structure and function relationship of cyclin A. These results provide support to the previous suggestion (Brown, N. R., Noble, M. E. M., Endicott, J. A., Garman, E. F., Wakatsuki, S., Mitchell, E., Rasmussen, B., Hunt, T., and Johnson, L. N. (1995) Structure 3, 1235-1247) that the activation domain of Nck5a adopts a conformation similar to that of cyclin A. They also provide a partial answer to the question of how Nck5a, a non-cyclin, activates a cyclin-dependent kinase.
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PMID:Cyclin-dependent kinase 5 (Cdk5) activation domain of neuronal Cdk5 activator. Evidence of the existence of cyclin fold in neuronal Cdk5a activator. 913 76

The general transcription initiation factor TFIID contains the TATA-binding protein (TBP) and TBP-associated factors (TAFs) implicated in the function of gene-specific activators. Previous studies have indicated that a hamster cell line (ts13) with a point mutation in the TAF(II)250/CCG1 (TAF(II)250) gene shows temperature-sensitive expression of a subset of genes and arrests in late G1 at 39.5 degrees C. Here, we report the identification of cell cycle-specific (G1-specific) genes that appear to be regulated directly through TAF(II)250 both in vivo and in vitro. Transcription rates of several cell cycle-regulatory genes were determined by run-on assays in nuclei from ts13 cells grown at permissive (33 degrees C) and nonpermissive (39.5 degrees C) temperatures. Temperature-dependent differences in transcription rates were observed for cyclin A, D1, and D3 genes. In transient-transfection assays, the human cyclin D1 promoter fused to a luciferase reporter showed a temperature-dependent reduction in activity in ts13 cells but not in parental BHK cells. In in vitro assays, upstream sequence-dependent transcription from the human cyclin D1 promoter was significantly reduced in ts13 nuclear extracts preincubated at 30 degrees C but not in similarly treated BHK nuclear extracts, and transcription in the ts13 extract was restored by addition of an affinity-purified human TFIID. Preincubation of the ts13 nuclear extracts did not affect the function of several GAL4-activation domain fusion proteins (GAL4-VP16, GAL4-p65, and GAL4-p53) on either the adenovirus major late or cyclin D1 core promoter bearing GAL4 sites, further indicating that the effect of the TAF(II)250 mutation is both core promoter and activator specific.
Mol Cell Biol 1997 Jun
PMID:The ts13 mutation in the TAF(II)250 subunit (CCG1) of TFIID directly affects transcription of D-type cyclin genes in cells arrested in G1 at the nonpermissive temperature. 915 27

The human progesterone receptor (hPR) in T47D breast cancer cells is phosphorylated on at least nine different serine residues. We have previously reported the identification of five sites; three are hormone inducible (Ser102, Ser294 and Ser345), and their phosphorylation correlates with the timing of the change in receptor mobility on gel electrophoresis in response to hormone treatment. The other two sites, Ser81 and Ser162, along with the remaining sites, are basally phosphorylated and exhibit a general increase in phosphorylation in response to hormone. With the exception of Ser81, all of these sites are in Ser-Pro motifs, suggesting that proline-directed kinases are responsible for their phosphorylation. We now report that cyclin A-cyclin-dependent kinase-2 complexes phosphorylate hPR-B in vitro with a high stoichiometry on three sites that are authentic basal sites in vivo. One of these is Ser162, which has been described previously. The other two sites are identified here as Ser190 and Ser400. The specificity and stoichiometry of the in vitro phosphorylation suggest that hPR phosphorylation may be regulated in a cell cycle-dependent manner in vivo.
Mol Endocrinol 1997 Jun
PMID:Phosphorylation of human progesterone receptor by cyclin-dependent kinase 2 on three sites that are authentic basal phosphorylation sites in vivo. 917 Dec 45

The pRB-related proteins p107 and p130 are thought to suppress growth in part through their associations with two important cell cycle kinases, cyclin A-cdk2 and cyclin E-cdk2, and transcription factor E2F. Although each protein plays a critical role in cell proliferation, the functional consequences of the association among growth suppressor, cyclin-dependent kinase, and transcription factor have remained elusive. In an attempt to understand the biochemical properties of such complexes, we reconstituted each of the p130-cyclin-cdk2 and p107-cyclin-cdk2 complexes found in vivo with purified, recombinant proteins. Strikingly, stoichiometric association of p107 or p130 with either cyclin E-cdk2 or cyclin A-cdk2 negated the activities of these kinases. The results of our experiments suggest that inhibition does not result from substrate competition or loss of cdk2 activation. Kinase inhibitory activity was dependent upon an amino-terminal region of p107 that is highly conserved with p130. Further, a role for this amino-terminal region in growth suppression was uncovered by using p107 mutants unable to bind E2F. To determine whether cellular complexes might display similar regulatory properties, we purified p130-cyclin A-cdk2 complexes from human cells and found that such complexes exist in two forms, one that contains E2F-4-DP-1 and one that lacks the heterodimer. These endogenous complexes behaved like the in vitro-reconstituted complexes, exhibiting low levels of associated kinase activity that could be significantly augmented by dissociation of p130. The results of these experiments suggest a mechanism whereby p130 and p107 suppress growth by inhibiting important cell cycle kinases.
Mol Cell Biol 1997 Jul
PMID:p130 and p107 use a conserved domain to inhibit cellular cyclin-dependent kinase activity. 919 92

The transcription factor E2F-1 interacts stably with cyclin A via a small domain near its amino terminus and is negatively regulated by the cyclin A-dependent kinases. Thus, the activities of E2F, a family of transcription factors involved in cell proliferation, are regulated by at least two types of cell growth regulators: the retinoblastoma protein family and the cyclin-dependent kinase family. To investigate further the regulation of E2F by cyclin-dependent kinases, we have extended our studies to include additional cyclins and E2F family members. Using purified components in an in vitro system, we show that the E2F-1-DP-1 heterodimer, the functionally active form of the E2F activity, is not a substrate for the active cyclin D-dependent kinases but is efficiently phosphorylated by the cyclin B-dependent kinases, which do not form stable complexes with the E2F-1-DP-1 heterodimer. Phosphorylation of the E2F-1-DP-1 heterodimer by cyclin B-dependent kinases, however, did not result in down-regulation of its DNA-binding activity, as is readily seen after phosphorylation by cyclin A-dependent kinases, suggesting that phosphorylation per se is not sufficient to regulate E2F DNA-binding activity. Furthermore, heterodimers containing E2F-4, a family member lacking the cyclin A binding domain found in E2F-1, are not efficiently phosphorylated or functionally down-regulated by cyclin A-dependent kinases. However, addition of the E2F-1 cyclin A binding domain to E2F-4 conferred cyclin A-dependent kinase-mediated down-regulation of the E2F-4-DP-1 heterodimer. Thus, both enzymatic phosphorylation and stable physical interaction are necessary for the specific regulation of E2F family members by cyclin-dependent kinases.
Mol Cell Biol 1997 Jul
PMID:Specific regulation of E2F family members by cyclin-dependent kinases. 919 21

Protein Phosphatase-1 is phosphorylated in vitro by cdc2-cyclin B (Villa-Moruzzi, FEBS Lett 304: 211-215, 1992). In the present study we show that all the three Phosphatase-1 isoforms, alpha, gamma 1, delta, are phosphorylated by cdc2-cyclin B. Phosphorylation is specific for this kinase and involves a C-terminal Thr. This site is most likely Thr 320 in alpha (shown by others to be phosphorylated also by cdc2-cyclin A). Such Thr is conserved in gamma 1, delta and in the testis-specific gamma 2, and is the only Thr that fits the cdc2-consensus sequence in the C-terminal region. Phosphorylation of Phosphatase-1 purified from skeletal muscle, which is a mixture of the alpha, gamma 1 and delta isoforms, is up to 0.4 mol/mol and induces 30-35% enzyme inactivation. Following tryptic proteolysis each isoform yields a distinct phosphopeptide map. This is in agreement with the different sequences of the isoforms in the C-terminal regions and may be useful to distinguish the isoforms in extracts from metabolically-labelled cells. Our results suggest that all the Phosphatase-1 isoforms may be potentially regulated at M-phase.
Mol Cell Biochem 1997 Jun
PMID:Phosphorylation of protein phosphatase-1 isoforms by cdc2-cyclin B in vitro. 920 3

Cdc25A, a phosphatase essential for G1-S transition, associates with, dephosphorylates, and activates the cell cycle kinase cyclin E-cdk2. p21CIP1 and p27 are cyclin-dependent kinase (cdk) inhibitors induced by growth-suppressive signals such as p53 and transforming growth factor beta (TGF-beta). We have identified a cyclin binding motif near the N terminus of Cdc25A that is similar to the cyclin binding Cy (or RR LFG) motif of the p21CIP1 family of cdk inhibitors and separate from the catalytic domain. Mutations in this motif disrupt the association of Cdc25A with cyclin E- or cyclin A-cdk2 in vitro and in vivo and selectively interfere with the dephosphorylation of cyclin E-cdk2. A peptide based on the Cy motif of p21 competitively disrupts the association of Cdc25A with cyclin-cdks and inhibits the dephosphorylation of the kinase. p21 inhibits Cdc25A-cyclin-cdk2 association and the dephosphorylation of cdk2. Conversely, Cdc25A, which is itself an oncogene up-regulated by the Myc oncogene, associates with cyclin-cdk and protects it from inhibition by p21. Cdc25A also protects DNA replication in Xenopus egg extracts from inhibition by p21. These results describe a mechanism by which the Myc- or Cdc25A-induced oncogenic and p53- or TGF-beta-induced growth-suppressive pathways counterbalance each other by competing for cyclin-cdks.
Mol Cell Biol 1997 Aug
PMID:p21CIP1 and Cdc25A: competition between an inhibitor and an activator of cyclin-dependent kinases. 923 91

We have generated 50 new alleles of the yeast CLN2 gene by using site-directed mutagenesis. With the recently obtained crystal structure of cyclin A as a guide, a peptide linker sequence was inserted at 13 sites within the cyclin box of Cln2 to determine if the architecture of Cln2 is similar to that of cyclin A. Linkers inserted in what are predicted to be helices 1, 2, 3, and 5 of the cyclin box resulted in nonfunctional Cln2 molecules. Linkers inserted between these putative helix sites and in the region believed to contain a fourth helix did not have significant effects upon Cln2 function. A series of deletions in the region between the third and fifth helices indicate that the putative fourth helix may lie at the C-terminal end of this region yet is not essential for function. Two residues that are predicted to form a buried salt bridge important for interaction of two helices of the cyclin box were also mutated, and an additional set of 31 mutant alleles was generated by clustered-charge-to-alanine scanning mutagenesis. All of the mutant CLN2 alleles made in this study were tested in a variety of genetic and functional assays previously demonstrated to differentiate specific cyclin functions. Some alleles demonstrated restricted patterns of defects, suggesting that these mutations may interfere with specific aspects of Cln2 function.
Mol Cell Biol 1997 Aug
PMID:Structure-function analysis of the Saccharomyces cerevisiae G1 cyclin Cln2. 923 22

Simian virus 40 (SV40) encodes two proteins, large T antigen and small t antigen that contribute to virus-induced tumorigenesis. Both proteins act by targeting key cellular regulatory proteins and altering their function. Known targets of the 708-amino-acid large T antigen include the three members of the retinoblastoma protein family (pRb, p107, and p130), members of the CBP family of transcriptional adapter proteins (cap-binding protein [CBP], p300, and p400), and the tumor suppressor p53. Small t antigen alters the activity of phosphatase pp2A and transactivates the cyclin A promoter. The first 82 amino acids of large T antigen and small t antigen are identical, and genetic experiments suggest that an additional target(s) important for transformation interacts with these sequences. This region contains a motif similar to the J domain, a conserved sequence found in the DnaJ family of molecular chaperones. We show here that mutations within the J domain abrogate the ability of large T antigen to transform mammalian cells. To examine whether a purified 136-amino-acid fragment from the T antigen amino terminus acts as a DnaJ-like chaperone, we investigated whether this fragment stimulates the ATPase activity of two hsc70s and discovered that ATP hydrolysis is stimulated four- to ninefold. In addition, ATPase-defective mutants of full-length T antigen, as well as wild-type small t antigen, stimulated the ATPase activity of hsc70. T antigen derivatives were also able to release an unfolded polypeptide substrate from an hsc70, an activity common to DnaJ chaperones. Because the J domain of T antigen plays essential roles in viral DNA replication, transcriptional control, virion assembly, and tumorigenesis, we conclude that this region may chaperone the rearrangement of multiprotein complexes.
Mol Cell Biol 1997 Aug
PMID:The amino-terminal transforming region of simian virus 40 large T and small t antigens functions as a J domain. 923 32

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