Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Stimuli that are mitogenic for mature T-cells induce cell cycle arrest in some T-cell tumors and T-cell hybridomas. The molecular mechanism of this growth inhibition is poorly understood. In this report, we show that in EL4, a murine T-lymphoma cell line, stimulation with concanavalin A or treatment with phorbol 13-myristate 12-acetate (PMA) inhibit growth, due to cell cycle arrest at both the G1 and the G2/M phases. The block at the G1 phase is accompanied by the appearance of a hypophosphorylated form of the retinoblastoma protein (pRb), due to the inhibition of G1 cyclin-Cdk complexes. However, the molecular mechanisms leading to this G1 cell cycle arrest differ between concanavalin A and PMA: concanavalin A inhibits both cyclin E-Cdk2 and cyclin D-Cdk4 complexes, while PMA inhibits only cyclin E-Cdk2. We demonstrate that concanavalin A inhibits cyclin D-Cdk4 activity by decreasing the amount of cyclin D. The inhibition of cyclin E-Cdk2 by both concanavalin A and PMA is due to increased binding of the Cdk inhibitor p21 to this complex. However, while stimulation of the cells with concanavalin A did not result in an evident increase of the total level of p21, treatment of the cells with PMA increased p21 levels significantly. Our results indicate, furthermore, that the G2/M block results from the inhibition of cyclin A- and cyclin B1-associated kinase activities. As for cyclin E-Cdk2, the inhibition of the cyclin A-Cdk2 complex is due to increased binding of the p21 inhibitor.
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PMID:Evidence for different mechanisms of growth inhibition of T-cell lymphoma by phorbol esters and concanavalin A. 899 61

Glucose-regulated stress response of cancer cells occurs during the growth of solid tumors and is induced in culture by treatments with various agents, including 2-deoxyglucose, glucosamine, and calcium ionophore A23187. We previously reported that the three stressors commonly induced cell-cycle arrest in the G1 phase and resistance to antitumor drugs in human cancer A2780 and HT-29 cells. In this study, we investigated the mechanisms of stress-induced G1 arrest by determining the expression of cell-cycle-regulating proteins. Among G1 cyclins and cyclin-dependent kinases (cdk) examined, the expression levels of cyclin D1 preferentially decreased in the stressed cells. A time-course study showed that the decrease in cyclin D1 coincided with the appearance of hypophosphorylated retinoblastoma protein (pRb), which is the growth suppressive form. These findings suggest that the stress-induced G1 arrest is mediated through the down-regulation of cyclin D1-associated kinases (cdk4/6), pRb kinases during G1 phase. This was also supported by decreased cdk4 expression in stressed HT-29 cells. In addition, p21WAF1, a cdk inhibitor, was induced in the stressed cells, particularly A23187-treated cells. A23187, compared with the other stressors, caused extreme pRb hypophosphorylation, suggesting that p21WAf1 is involved in the regulation of pRb phosphorylation in the stressed cells. Our present findings could explain a molecular-based mechanism of a growth-arrested quiescent state and also resistance to chemotherapy of solid tumor cells.
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PMID:Glucose-regulated stresses cause decreased expression of cyclin D1 and hypophosphorylation of retinoblastoma protein in human cancer cells. 900 Jan 44

Raised intracellular cyclic AMP (cAMP) has been demonstrated to exert an antiproliferative effect in myeloid cells. How the antiproliferative activity of cAMP is exerted in p210 BCR-ABL transformed myeloid cells was the subject of this investigation. It was hypothesized that cyclin dependent kinase 4, cdk4, might be a critical target enzyme to affect the related events of c-myc transcription and progression through G1 phase of the cell cycle within cells transformed by p210 BCR-ABL, and further, that cdk4 might be downregulated by cAMP to inhibit proliferation. In order to investigate the regulatory role of cdk4, synchronized cells were studied. In p210 BCR-ABL transformed cells transiting early G1 phase, treatment with a cAMP analogue led to inhibition of cyclin D1 synthesis, and marked reduction of cdk4 kinase activity. Within cells in which cdk4 was inhibited by cAMP, there was augmented interaction of E2F1 with the retinoblastoma protein, pRb in a nuclear matrix-associated cell fraction. As a result of E2F1 sequestration, raised intracellular cAMP was found to inhibit c-myc transcription in p210 BCR-ABL transformed myeloid cells synchronously transiting the early G1 phase of the cell cycle. A target of this transcriptional suppression exerted by cAMP was the E2F site of the c-myc P2 promoter. On the other hand, cyclin D1 content was not reduced by cAMP in these cells when it was applied at a later cell cycle stage at the interface between G1 and S. Corresponding to lack of cyclin D1 inhibition in these later G1-to-S phase cells, cdk4 activity was only modestly suppressed, and c-myc mRNA expression was also inhibited to a lesser degree. These studies show that Rb interaction with E2F1 is regulated by cdk4 and cyclin D1 within p210 BCR-ABL transformed leukemia cells in early G1 phase of the cell cycle. In this context, both cyclin D1 and cdk4 are subject to the level of intracellular cAMP. This interaction between Rb and E2F1, which is subject to the level of cAMP, is critical to transcriptional control of c-myc. Further, pRb regulation of E2F activity affects cellular potential for G1-S phase transition in p210 BCR-ABL transformed myeloid cells, in part, via its effect on c-myc transcription.
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PMID:Cyclic AMP negatively controls c-myc transcription and G1 cell cycle progression in p210 BCR-ABL transformed cells: inhibitory activity exerted through cyclin D1 and cdk4. 900 21

By interacting with key regulatory proteins such as the pRb family, cyclins, cyclin-dependent kinases and p300/CBP of host cells, adenoviral E1A interferes with various cellular processes to provide a suitable environment for the replication of viruses. E1A may promote DNA synthesis and cell cycle progression, immortalize rodent cells in culture and transform cultured cells in cooperation with E1B, Ras, or other oncoproteins. Both extreme N terminus and conserved region 1 of E1A are required for the immortalization and the transformation of rodent cells, transcriptional repression and specific induction of the expression of cellular genes such as the proliferating cell nuclear antigen (PCNA) and heat shock protein 70 (HSP70). Although the molecular mechanisms of these functions of E1A are not fully understood, it is believed that protein-protein interactions may play essential roles. In this communication, we report that a new set of cellular proteins with apparent molecular weight of 200, 90, 45, 30, and 28 specifically associate with the extreme N terminus of E1A. Further analysis demonstrate that these associations do not depend on E1A's association with p300 or pRB. Neither the 30 kDa nor the 28 kDa polypeptide is identical to Cdc2 or Cdk2. The region of E1A required for the protein interaction is also required for the recently identified N-terminal transactivation activity of E1A. Our observations suggest that in addition to p300/CBP, the new set of cellular proteins may be involved in the functional complexity of the N terminus of E1A, thus predicting a p300/CBP independent pathway.
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PMID:Extreme N terminus of E1A oncoprotein specifically associates with a new set of cellular proteins. 900 47

Recent studies suggest that subtotal renal ablation is associated with an early phase of mesangial cell proliferation. Because the mechanism(s) responsible for this response have not been elucidated, the study presented here sought to determine if changes in expression of positive cell cycle regulators, including pRb, cyclin E, and cdk2, occurred in the glomerulus during the early period of compensatory renal hypertrophy that follows 5/6 renal ablation. A first group of rats underwent sham operation and served as the control group. A second group of rats underwent 5/6 renal ablation. Ninety-six hours after subtotal ablation, protein was extracted from sieved glomeruli for Western blot analysis of proliferating cell nuclear antigen (PCNA) and retinoblastoma protein expression (pRb). RNA was extracted from sieved glomeruli for Northern blot analysis of cyclin E and cdk2 mRNA levels, and renal cortical tissue was subjected to immunohistochemical analysis of PCNA. On average, one PCNA-positive nucleus was present every 22 glomerular profiles in normal rats. The number of PCNA-positive nuclei increased fivefold in glomeruli, 96 h after renal ablation (P < 0.05). pRb was present only in the unphosphorylated state in normal glomeruli, but the increase in PCNA was accompanied by the appearance of phosphorylated pRb in remnant glomeruli. mRNA levels for cyclin E increased twofold in remnant glomeruli, whereas mRNA levels for cdk2 were unchanged. It was concluded that renal ablation leads to cell cycle progression in the glomerulus and an increase in the G1 cyclin, cyclin E, is associated with the appearance of phosphorylated retinoblastoma protein.
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PMID:Cyclin and cyclin-dependent kinase expression in the remnant glomerulus. 907 5

UCN-01 (7-hydroxyl-staurosporine) was originally isolated as a Ca2+- and phospholipid-dependent protein kinase C selective inhibitor and now is being developed as an anticancer agent. Results from our and other laboratories have suggested that UCN-01 induces preferential G1-phase accumulation in several human tumor cell lines tested. To elucidate this mechanism, we examined the effects of UCN-01 on several cell cycle-regulatory proteins critical for G1-S-phase transition in p53-mutated human epidermoid carcinoma A431 cells. After 24 h exposure at around 50% growth-inhibitory concentrations (IC50s), 260 and 520 nM, UCN-01 induced the accumulation of pRb (the dephosphorylated retinoblastoma protein form). The protein expression of cyclin A but not cyclin E was markedly reduced and that of cyclin D1 was partially reduced under the same condition. UCN-01 also showed the concentration-dependent inhibitions of the activity of cyclin-dependent kinase 2 (CDK2) using histone H1 and pRb as substrates in vitro (IC50, 530 and 640 nM, respectively). In addition, CDK2 activities of the cells pretreated with UCN-01 for 24 h at 260 and 520 nM were markedly inhibited, giving IC50s of far less than 260 nM. When the same cell lysates were analyzed by Western blotting for CDK2, the lower band (e.g., active and phosphorylated CDK2) was remarkably reduced, in accordance with the reduced activity. Furthermore, UCN-01 induced the expression of the CDK inhibitor p21 protein and its complex formation with CDK2 after 24 h exposure at 260 and 520 nM, whereas the expression level was very low or undetectable in untreated or DNA-damaged cells. The increase of p21 mRNA levels was also induced under the same condition. UCN-01 further increased luciferase activities in A431 cells transiently transfected with p21 promoter-luciferase reporter plasmid after 24 h exposure at 260 and 520 nM. UCN-01 also increased the expression of the CDK inhibitor p27 protein after 24 h exposure at 260 and 520 nM. These results suggest that G1-phase accumulation induced by UCN-01 is associated with dephosphorylation of Rb and CDK2 proteins as well as induction of CDK inhibitors p21 and p27.
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PMID:G1 phase accumulation induced by UCN-01 is associated with dephosphorylation of Rb and CDK2 proteins as well as induction of CDK inhibitor p21/Cip1/WAF1/Sdi1 in p53-mutated human epidermoid carcinoma A431 cells. 910 51

v-Abl is an oncogenic form of the c-Abl nonreceptor tyrosine kinase. v-Abl induces transcription of c-myc, and c-Myc function is a necessary but not sufficient component of the v-Abl transformation program. Previously we showed that the E2F site in the c-myc promoter is a v-Abl response element and that v-Abl appears to induce c-myc by initiating a phosphorylation cascade that ultimately activates E2F-binding proteins. In this work we have investigated the signaling pathway between the v-Abl tyrosine kinase and activated E2F proteins. We show that the Ras GTPase and Raf1 serine/threonine kinase are required in this pathway. However, in contrast to other aspects of v-Abl signaling, induction of c-myc transcription is independent of the Rac GTPase. Our results also establish a requirement for activated cyclin-dependent kinases (cdks), as v-Abl-dependent induction of c-myc transcription is blocked by cdk inhibitor p21 and induction of c-myc is accompanied by activation of cdk2 and cdk4. Finally, we show that v-Abl-dependent induction of c-myc is accompanied by hyperphosphorylation of pRb, p107, and p130. On the basis of these data, we propose a model for the signaling path from v-Abl to c-myc.
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PMID:Induction of c-myc transcription by the v-Abl tyrosine kinase requires Ras, Raf1, and cyclin-dependent kinases. 911 29

Withdrawal from the cell cycle of differentiating myocytes is regulated by the myogenic basic helix-loop-helix (bHLH) protein MyoD and the pocket proteins pRb, p107 and pRb2/p130. Downstream effectors of 'pocket' proteins are the components of the E2F family of transcription factors, which regulate the G1/S-phase transition. We analysed by EMSA the composition of E2F complexes in cycling, quiescent undifferentiated and differentiated C2C12 skeletal muscle cells. An E2F complex containing mainly E2F4 and pRb2/p130 (E2F-G0/G1 complex) appears when DNA synthesis arrests, replacing the cyclinA/cdk2 containing E2F complex of proliferating myoblasts (E2F-G1/S complex). Serum stimulation reinduces DNA synthesis and the re-appearance of E2F-G1/S complexes in quiescent myoblasts but not in differentiated C2C12 myotubes. In differentiating C2C12 cells, E2F complexes switch and DNA synthesis in response to serum are prevented when MyoD DNA binding activity and the cdks inhibitor MyoD downstream effector p21 are induced. Thus, during myogenic differentiation, formation of E2F4 and pRb2/p130 containing complexes is an early event, but not enough on its own to prevent the reactivation of DNA synthesis. Using a subclone of C3H10T1/2 mouse fibroblasts stably expressing Estrogen Receptor-MyoD (ER-MyoD) chimerae, we found that estrogen directed MyoD activation prevents the reassociation of cyclinA/cdk2 to the E2F4 containing complex following serum stimulation and this correlates with suppression of E2F activity and the inability of cells to re-enter the cell cycle. Our data indicate that, in differentiating myocytes, one mechanism through which MyoD induces permanent cell cycle arrest involves p21 upregulation and suppression of the proliferation-associated cdks-containing E2F complexes formation.
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PMID:MyoD prevents cyclinA/cdk2 containing E2F complexes formation in terminally differentiated myocytes. 912 66

G1 phase cell cycle arrest after exposure to ionizing radiation has been documented in cells with wild-type p53. The temporal location of this arrest within G1 phase, however, has not been determined. We have now used flow cytometric analysis of bromodeoxyuridine (BrdUrd)-labeled cells to obtain further information about the location of the G1 phase radiation checkpoint. Human fibroblasts were irradiated with gamma-rays and treated with colcemid to stop unlabeled G2 cells from entering the G1 phase. Analysis of BrdUrd incorporation revealed that 73% of G1 phase human lung fibroblasts remain in G1 phase after exposure to gamma-rays, thereby placing the G1 radiation checkpoint near the end of G1 phase. The location of the radiation checkpoint correlates with the reported increased expression of cyclin E, increased cyclin E/cdk2 kinase activity, and hyperphosphorylation of pRb in proliferating human fibroblasts.
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PMID:Temporal position of G1 arrest in normal human fibroblasts after exposure to gamma-rays. 914 32

P130 shares structural and functional homology with pRb and p107. One property common to p107 and p130, but not to pRb, is the ability to stably interact with cyclin A/cdk2 and cyclin E/cdk2 complexes in vitro and in vivo. Using GST-p130 fusion proteins representing various regions of p130, baculovirus-produced cyclin A/cdk2 and cyclin E/cdk2 complexes were found to interact with residues within a part of p130 known as the spacer region. Cyclin E was able to bind the p130 spacer region in the presence or absence of cdk2 whereas cyclin A binding was dependent upon the presence of cdk2. The smallest p130 fusion protein sufficient to interact with cyclin A/cdk2 or cyclin E/cdk2 complexes contained p130 amino acids 652-698 and deletion of p130 amino acids 680-682 abolished binding to both of the cyclin/cdk2 complexes. When overexpressed in C33A cells, a p130 mutant containing a deletion of amino acids 620-697 was unable to form complexes with either cyclin A or cyclin E. This p130 mutant was at least as active as wild type p130 in suppressing the growth of G418 resistant colonies when overexpressed in C33A or SAOS-2 cells.
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PMID:Identification of a p130 domain mediating interactions with cyclin A/cdk 2 and cyclin E/cdk 2 complexes. 918 54


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