EC:2.5.1.18 - FACTA Search

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Query: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cyclin-dependent kinase (Cdk) inhibitor p21SDI1/WAF1/CIP1 has been found to be involved in cell senescence, cell cycle arrest, and differentiation. p21SDI1 inhibits the activity of several Cdks, in contrast to other inhibitors such as p15INK4B and p16INK4A, which act on specific cyclin-Cdk complexes. Of interest were reports that p21SDI1 also bound proliferating cell nuclear antigen (PCNA), an auxiliary protein for DNA polymerase delta, and inhibited DNA replication but not DNA repair in vitro. To better understand the function of this interaction in vivo, we first determined the region of p21SDI1 that was needed for PCNA binding. Analysis of deletion mutants of p21SDI1, which covered the majority of the protein, revealed that deletion of either amino acids 142-147 or 149-154 resulted in loss of ability to bind a glutathione S-transferase-PCNA fusion protein. Site-directed mutagenesis in this region led to the identification of the PCNA binding motif RQXXMTXFYXXXR and demonstrated that mutation of either amino acid Met-147 or Phe-150 resulted in almost complete ablation of PCNA binding. Interestingly, when we determined DNA synthesis inhibitory activity of deletion mutants or point mutants that were unable to bind Cdk2 and/or PCNA, we found that loss of binding to PCNA did not affect inhibitory activity, whereas lack of Cdk2 binding greatly reduced the same. This result suggests that the primary mechanism for inhibition of DNA synthesis by p21SDI1 occurs via inhibition of Cdk activity.
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PMID:The C-terminal region of p21SDI1/WAF1/CIP1 is involved in proliferating cell nuclear antigen binding but does not appear to be required for growth inhibition. 761 95

Characterization of cdk (cyclin dependent kinases) substrates and studies of their regulation require purified enzymatic complexes of cdc2-related catalytic and cyclin regulatory subunits. We produced human Cdc2 kinase in the fission yeast Schizosaccharomyces pombe as a fusion protein with glutathione S-transferase (GST). The GST-human Cdc2p fusion protein was active in vivo since it rescued a temperature-sensitive allele of cdc2. The fusion protein was purified using a one-step chromatography procedure with glutathione-Sepharose and exhibited a catalytic activity in vitro. Yeast cyclin B and suc1 were found in association with GST-Cdc2. A 17-fold stimulation of GST-Cdc2 kinase activity was obtained by incubation of recombinant human cyclin A with the S. pombe cellular extract prior to affinity purification. This indicates that cyclin concentration is limiting in this overexpression system. These findings describe a fast and easy production of active recombinant human Cdc2 kinase in yeast that can be used for biochemical studies.
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PMID:Characterization of an active GST-human Cdc2 fusion protein kinase expressed in the fission yeast Schizosaccharomyces pombe: a new approach to the study of cell cycle control proteins. 772 98

Members of the recently discovered family of cyclin-dependent kinases inhibitors (CKIs) appear to play an essential regulatory role in the control of cell proliferation. To investigate the molecular basis of the interaction between these proteins and the cyclin-dependent kinases (CDKs), we performed a systematic mutagenesis of the CKI family member p21Cip1 using the alanine-scanning strategy. We have examined the interaction between in vitro translated human cdk2, cyclins A and D1, purified proliferating cell nuclear antigen (PCNA) and a set of human p21Cip1 mutants fused to glutathione S-transferase. Independent domains that are required for the interaction with cdk2 and with PCNA have been identified. The cdk2 binding domain is located in the N-terminal part of the protein, between residues 45 and 60, a region that is fully conserved in the p27Kip1 inhibitor. A PCNA binding region was localised to the C-terminus of the protein, between residues 142 and 163. These findings define protein motifs that are highly conserved between members of the CKI family and that are likely to play an essential function in the regulation of the G1/S transition.
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PMID:Identification of binding domains on the p21Cip1 cyclin-dependent kinase inhibitor. 778 76

L6 cells are committed skeletal muscle precursors which can be induced to differentiate into multinucleated, terminally differentiated myotubes. Upon differentiation, these immature skeletal myotubes enter a quiescent state and are unable to reenter the cell cycle. We have examined expression of a series of genes involved in regulation of progression through the G1/S boundary in undifferentiated L6 cells and during terminal differentiation of L6 myoblasts. While no change in the level of cyclin D1 transcript and a transient increase in cyclin D2 transcript were observed, a large increase in cyclin D3 expression was found. Immunohistochemistry demonstrated strong staining for cyclin D3 protein in the nuclei of the multinucleated myotubes from 4 independent myoblast cell lines; L6, L8, G8 and C2C12. Immunoprecipitation confirmed a greater than 20-fold increase in the levels of cyclin D3 protein in the differentiated L6 myotubes as well as its association with a number of proteins. Western assays demonstrated, further, that cyclin D3 was complexed with the cyclin dependent-kinases, cdk2 and cdk4, in differentiated L6 cells. However, while kinase activity specific for a GST-pRB fusion protein was seen for cyclin D3-containing complexes isolated from undifferentiated cells, the high levels of cyclin D3 in the differentiated myotubes had no associated kinase activity. These data demonstrate that cyclin D3 may also have a function in terminally differentiated, quiescent cells. The lack of cyclin D3-associated kinase activity and its association with a number of different proteins suggest that cyclin D3 may regulate the function of other proteins by direct interaction with these factors.
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PMID:Expression of the positive regulator of cell cycle progression, cyclin D3, is induced during differentiation of myoblasts into quiescent myotubes. 782 68

In Saccharomyces cerevisiae, transient accumulation of G1 cyclin/p34CDC28 (Cdc28p) complexes induces cells to traverse the cell cycle Start checkpoint and commit to a round of cell division. To investigate posttranslational controls that modulate Cdc28p activity during the G1 phase, we have reconstituted cyclin-dependent activation of Cdc28p in a cyclin-depleted G1 extract. A glutathione S-transferase-G1 cyclin chimera (GST-Cln2p) efficiently binds to and activates Cdc28p as a histone H1 kinase. Activation of Cdc28p by GST-Cln2p requires ATP, crude yeast cytosol, and the conserved Thr-169 residue that serves in other organisms as a substrate for phosphorylation by cyclin-dependent protein kinase-activating kinase. This assay may be useful for distinguishing genes that promote directly the posttranslational assembly of active Cln2p/Cdc28p kinase complexes from those that stimulate the accumulation of active complexes via a positive-feedback loop that governs synthesis of G1 cyclins.
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PMID:G1 cyclin-dependent activation of p34CDC28 (Cdc28p) in vitro. 786 57

We previously demonstrated (Ookata et al., 1992, 1993) that the p34cdc2/cyclin B complex associates with microtubules in the mitotic spindle and premeiotic aster in starfish oocytes, and that microtubule-associated proteins (MAPs) might be responsible for this interaction. In this study, we have investigated the mechanism by which p34cdc2 kinase associates with the microtubule cytoskeleton in primate tissue culture cells whose major MAP is known to be MAP4. Double staining of primate cells with anti-cyclin B and anti-MAP4 antibodies demonstrated these two antigens were colocalized on microtubules and copartitioned following two treatments that altered MAP4 distribution. Detergent extraction before fixation removed cyclin B as well as MAP4 from the microtubules. Depolymerization of some of the cellular microtubules with nocodazole preferentially retained the microtubule localization of both cyclin B and MAP4. The association of p34cdc2/cyclin B kinase with microtubules was also shown biochemically to be mediated by MAP4. Cosedimentation of purified p34cdc2/cyclin B with purified microtubule proteins containing MAP4, but not with MAP-free microtubules, as well as binding of MAP4 to GST-cyclin B fusion proteins, demonstrated an interaction between cyclin B and MAP4. Using recombinant MAP4 fragments, we demonstrated that the Pro-rich C-terminal region of MAP4 is sufficient to mediate the cyclin B-MAP4 interaction. Since p34cdc2/cyclin B physically associated with MAP4, we examined the ability of the kinase complex to phosphorylate MAP4. Incubation of a ternary complex of p34cdc2, cyclin B, and the COOH-terminal domain of MAP4, PA4, with ATP resulted in intracomplex phosphorylation of PA4. Finally, we tested the effects of MAP4 phosphorylation on microtubule dynamics. Phosphorylation of MAP4 by p34cdc2 kinase did not prevent its binding to microtubules, but abolished its microtubule stabilizing activity. Thus, the cyclin B/MAP4 interaction we have described may be important in targeting the mitotic kinase to appropriate cytoskeletal substrates, for the regulation of spindle assembly and dynamics.
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PMID:Cyclin B interaction with microtubule-associated protein 4 (MAP4) targets p34cdc2 kinase to microtubules and is a potential regulator of M-phase microtubule dynamics. 787 9

Proliferating cell nuclear antigen (PCNA) is an auxiliary protein for DNA polymerase delta and is required for both DNA replication and DNA repair. PCNA forms complexes with D-type cyclins, candidate G1 cyclins in mammalian cells. To better understand the functions of the complexes, we examined interactions between PCNA and D-type cyclins, using in vitro-translated mouse PCNA and mouse cyclin D1 or D3 fused to glutathione S-transferase (GST). Analysis of a set of deletion mutants of PCNA revealed that either the N-terminal (residues 2-64) or the C-terminal (residues 197-228) region is necessary for association with D-type cyclins. The cyclin binding of the chimeric protein of the N-terminal (residues 1-68) or the C-terminal (residues 195-261) region of PCNA and rat DNA polymerase beta which does not bind to the cyclins by itself supports this notion. The purified recombinant mouse PCNA expressed in Escherichia coli bound to the D-type cyclin-GST fusion proteins, thereby suggesting that PCNA binds directly to D-type cyclins, without the requirement of other cellular factors. This is apparently the first report on the structure-function relationship of PCNA which may link DNA replication and DNA repair with cell cycle control.
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PMID:D-type cyclin-binding regions of proliferating cell nuclear antigen. 790 6

The exchange rate of cyclin A and cyclin B between endogenous p34cdc2 and bacterially expressed GST-cdc2 was measured in concentrated Xenopus egg extracts. The half-lives of the cyclin A.p34cdc2 and the cyclin B.p34cdc2 complexes are estimated as 4 and 15 h, respectively. There is no significant difference in these affinities when they are measured in mitosis, interphase, or during transition between these two states. The tight association between cyclin and p34cdc2 in the cell cycle may be significant for mechanisms of cyclin destruction.
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PMID:Cyclin A and cyclin B dissociate from p34cdc2 with half-times of 4 and 15 h, respectively, regardless of the phase of the cell cycle. 796 81

Cyclins and cyclin-dependent kinases are critically involved in controlling cell cycle progression in virtually all cells. The recent identification of candidate G1 cyclins in mammalian cells has been a major advance in this field, but the exact functions of these cyclins are unknown. The expression of three D-type cyclins (D1, D2, and D3) was investigated in primary human T lymphocytes as these cells were induced to leave G0, traverse G1, and enter S phase by T cell-specific mitogens. G0 phase T cells expressed low levels of cyclin D2, but not cyclin D3. Treatment of these cells with phytohemagglutinin and 12-O-tetradecanoylphorbol-13-acetate in the presence of fetal calf serum resulted in rapid induction of cyclin D2 RNA in early G1 and slower induction of cyclin D3 in late G1. Cyclin D1 was not detected in T cells under any condition tested. Treatment of T cells with hydroxyurea to arrest cells at G1/S did not block induction of either D2 or D3. However, arrest of cells in mid G1 with deferoxamine blocked D3 expression without affecting D2. Cyclosporin A blocked the induction of both cyclin D2 and D3. Polyclonal antisera were prepared in rabbits against both cyclin D2 and cyclin D3 glutathione S-transferase fusion proteins and used to examine cyclin D2 and D3 proteins in [35S]methionine-labeled T cells. Protein levels were found to correlate closely with RNA levels for both cyclins. No detectable histone H1 kinase activity could be precipitated with either cyclin. However, several cellular proteins were observed to coprecipitate with the cyclins, including several proteins that were observed to associate only with D3. These results indicate that striking differences exist in the induction and regulation of two candidate G1 cyclins in human T cells and suggest that these cyclins could participate in multiple cell cycle checkpoints during G0, G1, or S phase.
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PMID:Independent regulation of human D-type cyclin gene expression during G1 phase in primary human T lymphocytes. 838 93

The meiotic maturation of Xenopus oocytes triggered by progesterone requires new protein synthesis to activate both maturation-promoting factor (MPF) and mitogen-activated protein kinase (MAP kinase). Injection of mRNA encoding mutant p34cdc2 (K33R) that can bind cyclins but lacks protein kinase activity strongly inhibited progesterone-induced activation of both MPF and MAP kinase in Xenopus oocytes. Similar results were obtained by injection of GST-p34cdc2 K33R protein or by injection of a monoclonal antibody (A17) against p34cdc2 that blocks its activation by cyclins. Both the dominant-negative p34cdc2 and monoclonal antibody A17 blocked the accumulation of p39mos and activation of MAP kinase in response to progesterone, as well as blocking the appearance of MPF, although they did not inhibit the translation of p39mos mRNA. These results suggest that: (i) activation of free p34cdc2 by newly made proteins, probably cyclin(s), is normally required for the activation of both MPF and MAP kinase by progesterone in Xenopus oocytes; (ii) the activation of translation of cyclin mRNA normally precedes, and does not require either MPF or MAP kinase activity; and (iii) de novo synthesis and accumulation of p39mos is probably both necessary and sufficient for the activation of MAP kinase in response to progesterone.
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PMID:Newly synthesized protein(s) must associate with p34cdc2 to activate MAP kinase and MPF during progesterone-induced maturation of Xenopus oocytes. 852 17

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