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)

Cells which are highly proliferative typically lack expression of differentiated, lineage-specific characteristics. Id2, a member of the helix-loop-helix (HLH) protein family known to inhibit cell differentiation, binds to the retinoblastoma protein (pRb) and abolishes its growth-suppressing activity. We found that Id2 but not Id1 or Id3 was able to bind in vitro not only pRb but also the related proteins p107 and p130. Also, an association between Id2 and p107 or p130 was observed in vivo in transiently transfected Saos-2 cells. In agreement with these results, expression of Id1 or Id3 did not affect the block of cell cycle progression mediated by pRb. Conversely, expression of Id2 specifically reversed the cell cycle arrest induced by each of the three members of the pRb family. Furthermore, the growth-suppressive activities of cyclin-dependent kinase inhibitors p16 and p21 were efficiently antagonized by high levels of Id2 but not by Id1 Id3. Consistent with the role of p16 as a selective inhibitor of pRb and pRb-related protein kinase activity, p16-imposed cell cycle arrest was completely abolished by Id2. Only a partial reversal of p21-induced growth suppression was observed, which correlated with the presence of a functional pRb. We also documented decreased levels of cyclin D1 protein and mRNA and the loss of cyclin D1-cdk4 complexes in cells constitutively expressing Id2. These data provide evidence for important Id2-mediated alterations in cell cycle components normally involved in the regulatory events of cell cycle progression, and they highlight a specific role for Id2 as an antagonist of multiple tumor suppressor proteins.
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PMID:Id2 specifically alters regulation of the cell cycle by tumor suppressor proteins. 864 64

During the transition from G1 to G0, p130 undergoes a specific phosphorylation event-leading to p130-form 2- that is mediated by a kinase/s other than the known G1, S and G2/M cyclin/CDKs. Changes in the phosphorylation status of p130 during this transition are responsible, at least in part, for the concomitant formation of p130/E2F-4 complexes, which are characteristic of G0. These complexes remain abundant during early G1 upon restimulation, but not after mitosis, and are dissociated in mid G1 when p130 is abruptly hyperphosphorylated to form 3. Subsequently, p130 forms 1 and 2 are no longer detected during the remainder of the cell cycle. Consistently, phosphorylation to form 3 and dissociation from E2F-4 complexes is reproduced by a cyclin/CDK holoenzyme in vitro. TGF-beta-induced G1 arrest abrogates cyclin/CDK phosphorylation of p130 but not phosphorylation to form 2. The cell cycle-dependent phosphorylation pattern of p130 is thus shown to comprise two distinct steps that are catalyzed by different kinases. The differential regulation of p130 and pRB phosphorylation during the transition from G1 to G0 may explain the fact that p130 and E2F-4 are the major components of E2F complexes in quiescent cells. Moreover, the newly described phosphorylation of p130 at the transition from G1 to G0 defines a novel mechanism of cell cycle exit regulation.
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PMID:G1 cyclin/CDK-independent phosphorylation and accumulation of p130 during the transition from G1 to G0 lead to its association with E2F-4. 871 Mar 62

Terminally differentiated cells are characterized by permanent withdrawal from the cell cycle; they do not enter S phase even when stimulated by growth factors or retroviral oncogenes. We have shown, however, that the adenovirus E1A oncogene can reactivate the cell cycle in terminally differentiated cells. In this report, we describe the molecular events triggered by E1A in terminally differentiated skeletal muscle cells. We found that in myotubes infected with the adenovirus mutant dl520, 12S E1A bypasses the early G1 phase and activates the expression of late-G1 genes, such as the cyclin E and cyclin A genes, cdk2, PCNA, and B-myb. Of these, the cyclin E gene and cdk2 were significantly overexpressed in comparison with levels in proliferating, undifferentiated myoblasts. p130 and pRb were phosphorylated before the infected myotubes entered S phase, despite the high expression of the cyclin-dependent kinase inhibitor p21, and E2F was released. Our results suggest that one of the mechanisms that E1A uses to overcome the proliferative block of terminally differentiated cells involves coordinated overexpression of cyclin E and cdk2. Following E1A expression, the myogenic transcription factors MyoD and myogenin and the muscle-specific structural genes encoding muscle creatine kinase and myosin heavy chain were downregulated. The muscle regulatory factors were also silenced in myotubes infected with adenovirus E1A mutants incapable of reactivating the cell cycle in terminally differentiated muscle cells. Thus, the suppression of the differentiation program is not a consequence of cell cycle reactivation in myotubes, and it is induced by an independent mechanism. Our results show that E1A reactivates the cell cycle and suppresses tissue-specific gene expression in terminally differentiated muscle cells, thus causing dedifferentiation.
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PMID:Expression of E1A in terminally differentiated muscle cells reactivates the cell cycle and suppresses tissue-specific genes by separable mechanisms. 881 42

In this study, we analyze effects of IFN-gamma on the proliferation of normal human mammary epithelial cells (MECs) and several mammary carcinoma cell lines. We demonstrate that IFN-gamma blocks the proliferation of MECs in a time- and concentration-dependent manner. This growth arrest is irreversible and occurs at a specific stage in the G1 phase of the cell cycle. IFN-gamma caused a rapid (within 12-24 h) down-regulation of cyclin A, c-myc, and cdc2 proteins, as well as a disappearance of hyperphosphorylated forms of the retinoblastoma family proteins, Rb and p130. The synthesis of several other growth control proteins, p53, p21/Waf1, and proliferating cell nuclear antigen, was down-regulated between 24 and 48 h. In MECs synchronized by epidermal growth factor deprivation and released for cell cycle traverse by re-addition of epidermal growth factor to the medium, IFN-gamma was able to block DNA synthesis only if added in the first 6 to 7 h after epidermal growth factor. The block in Rb phosphorylation and cyclin A expression was coordinately regulated during the same narrow window of G1. Several mammary carcinoma cell lines demonstrated resistance to the growth-inhibitory effects of IFN-gamma and did not exhibit down-regulation of cdc2 and cyclin A expression or a change in hyperphosphorylation of Rb when treated with IFN-gamma. Initial studies suggest, in some carcinoma cell lines, that resistance to IFN-gamma may be caused by defects in the IFN-gamma signal transduction pathway (measured by expression of the IFN-gamma-responsive gene GBP), while resistance in others may be due to defects in cell cycle regulatory proteins that are the targets of IFN-gamma action.
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PMID:Gamma-interferon induces an irreversible growth arrest in mid-G1 in mammary epithelial cells which correlates with a block in hyperphosphorylation of retinoblastoma. 883 59

The activity of the E2 F-family of transcription factors is tightly linked to control of the cell cycle. p107 and p130, two closely related members of the retinoblastoma protein-family of negative cell cycle regulators, modulate the activity of the E2f-family proteins by direct interaction with these factors. To understand the role of p107 and p130 in progression through or exit from the cell cycle, we have characterized the expression, phosphorylation state, cyclin-binding, and E2f-binding activity of p107 and p130 during terminal differentiation of rat myoblast cells into immature skeletal muscle (myotubes). In exponentially growing L6 myoblasts, p107 is phosphorylated in a cell cycle-dependent manner, and E2f-site binding complexes containing p107 is phosphorylated in a cell cycle-dependent manner, and E2f-site binding complexes containing p107 can be observed throughout the cell cycle. During differentiation of L6 cells, p107 levels are reduced, while p130 protein levels are increased 8-fold. Despite both p107 and p130 becoming hypophosphorylated during myogenesis, the E2F-site DNA-binding complexes containing p107 observed in exponentially growing myoblasts are quantitatively replaced in myotubes with complexes containing only p130. In myotubes, p107 is not associated with E2f-family proteins that are capable of binding DNA. The failure to observe p107-containing complexes in myotubes appears to be due to the differentiation-specific induction of both p130 and cyclin D3, p107 is found in complexes with cyclin D3 in myotubes, and the addition of exogenous cyclin D3 or p130 to lysates from undifferentiated L6 cells was able to disrupt p107-containing E2F-site binding complexes. In myotubes, p130 also forms complexes with cyclin D3 as well as cyclin E, cdk2, and cdk4. We are able to copurify cyclin D3 with cyclin E from myotubes, indicating the presence of a macromolecular complex containing both cyclin E and cyclin D3 simultaneously bound to p130. Thus, in myoblasts, p107 is normally involved in regulation of E2f-family proteins during cell cycle progression, while p130 is a differentiation-specific regulator of E2f activity. Our results also provide evidence that the apparent positive regulator of cell cycle progression, cyclin D3, has a function in terminally differentiated muscle cells.
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PMID:Expression and activity of the retinoblastoma protein (pRB)-family proteins, p107 and p130, during L6 myoblast differentiation. 884 6

The family of E2F transcription factors forms different multiprotein complexes with cell cycle regulatory proteins to control the expression of genes important in cell proliferation. In this study, we identified four distinct E2F complexes present in aged and senescent normal, human diploid fibroblasts. Two appeared to be identical to the previously described G1-specific p130 and Rb-E2F complexes present in young G0-arrested cells. The other two were novel E2F complexes that contained the cyclin-dependent kinase inhibitor p21 (cip1/WAF1/Sdi1/CAP20/PIC1) complexed with Rb/CDK2/cyclin E or with the Rb-related p107/CDK2/ cyclin D. These p21-E2F complexes, while present in young G1 cells at very low levels, were elevated in senescent cells. The p21 containing E2F complexes were not detected during the S-phase in young cells. The DNA-binding stability of the p21 complexes was approximately 10 times greater than the stability of any other E2F complex or uncomplexed E2F. Addition of purified p21 protein to the S-phase-specific cyclin A/ CDK2-p107-E2F complex from young cells dissociated cyclin A and CDK2 from p107/E2F, suggesting an additional novel function for p21. Finally, expression of p21 specifically inhibited transcription from an E2F-dependent promoter but had no effect on a mutant E2 promoter. In addition to its inhibition of CDK enzymes and proliferating cell nuclear antigen function in DNA replication, these studies reveal a novel mechanism by which p21 mediates growth arrest: direct interaction with E2F complexes and negative regulation of E2F transcription factor activity.
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PMID:A role for a p21-E2F interaction during senescence arrest of normal human fibroblasts. 885 93

Overexpression of mouse E2F1 full-length but not truncated forms results in neoplastic transformation of astrocytes in vitro. This neoplastic transformation is accompanied with changes in cell morphology and expression of cell cycle regulators. Transformed astrocytes have higher expression of cdk2, pRb, and p107 than control astrocytes. However, expression of glial fibrillary acidic protein (GFAP) and p130 is reduced in transformed astrocytes.
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PMID:Overexpression of E2F1 in astrocytes leads to neoplastic transformation and changes in expression of retinoblastoma family members. 889 11

Viral oncoproteins that inactivate the retinoblastoma tumor suppressor protein (pRb) family both block skeletal muscle differentiation and promote cell cycle progression. To clarify the dependence of terminal differentiation on the presence of the different pRb-related proteins, we have studied myogenesis using isogenic primary fibroblasts derived from mouse embryos individually deficient for pRb, p107, or p130. When ectopically expressed in fibroblasts lacking pRb, MyoD induces an aberrant skeletal muscle differentiation program characterized by normal expression of early differentiation markers such as myogenin and p21, but attenuated expression of late differentiation markers such as myosin heavy chain (MHC). Similar defects in MHC expression were not observed in cells lacking either p107 or p130, indicating that the defect is specific to the loss of pRb. In contrast to wild-type, p107-deficient, or p130-deficient differentiated myocytes that are permanently withdrawn from the cell cycle, differentiated myocytes lacking pRb accumulate in S and G2 phases and express extremely high levels of cyclins A and B, cyclin-dependent kinase (Cdk2), and Cdc2, but fail to readily proceed to mitosis. Administration of caffeine, an agent that removes inhibitory phosphorylations on inactive Cdc2/cyclin B complexes, specifically induced mitotic catastrophe in pRb-deficient myocytes, consistent with the observation that the majority of pRb-deficient myocytes arrest in S and G2. Together, these findings indicate that pRb is required for the expression of late skeletal muscle differentiation markers and for the inhibition of DNA synthesis, but that a pRb-independent mechanism restricts entry of differentiated myocytes into mitosis.
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PMID:Skeletal muscle cells lacking the retinoblastoma protein display defects in muscle gene expression and accumulate in S and G2 phases of the cell cycle. 889

Normal somatic cells of higher organisms do not divide indefinitely. After a finite number of divisions, normal cells irreversibly cease proliferation by a process termed replicative or cellular senescence. Replicative senescence is controlled by multiple, dominant-acting genes about which very little is known. The only genes known to reactivate DNA synthesis in senescent cells are viral oncogenes encoding proteins that bind and inactivate the p53 and retinoblastoma (pRb) tumor suppressor proteins. SV40 T antigen is the best studied of these viral oncoproteins. T[K1] is a T antigen point mutant that selectively is defective in binding pRb and the pRb-related proteins p107 and p130. We show that T[K1] stimulated quiescent human fibroblasts to synthesize DNA nearly as well as wild-type T but was incapable of stimulating senescent cells. We tested several growth regulatory genes that are repressed in senescent cells for ability to restore activity to T[K1]. These included c-fos, c-jun, Id-1, Id-2, E2F-1, and cdc2. Only the helix-loop-helix (HLH) protein, Id-1, restored the ability of T[K1] to reactivate DNA synthesis in senescent cells. This activity of Id-1 was not shared by Id-2, a related protein, and depended on an intact HLH domain. It did not appear that Id-1 interacted directly with pRb or p107. Constitutive Id-1 expression failed to rescue proliferating cells from growth inhibition by pRb, p107, or p130, and failed to interact with pRb in the yeast two hybrid system. Because Id proteins negatively regulate basic-HLH (bHLH) transcription factors, we suggest that senescent cells express one or more bHLH factor that cooperates with pRb, or pRb-related proteins, to suppress proliferation.
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PMID:The helix-loop-helix protein Id-1 and a retinoblastoma protein binding mutant of SV40 T antigen synergize to reactivate DNA synthesis in senescent human fibroblasts. 893 78

Understanding how cyclin-cdk complexes recognize their substrates is a central problem in cell cycle biology. We identified an E2F1-derived eight-residue peptide which blocked the binding of cyclin A and E-cdk2 complexes to E2F1 and p21. Short peptides spanning similar sequences in p107, p130, and p21-like cdk inhibitors likewise bound to cyclin A-cdk2 and cyclin E-cdk2. In addition, these peptides promoted formation of stable cyclin A-cdk2 complexes in vitro but inhibited the phosphorylation of the retinoblastoma protein by cyclin A- but not cyclin B-associated kinases. Mutation of the cyclin-cdk2 binding motifs in p107 and E2F1 likewise prevented their phosphorylation by cyclin A-associated kinases in vitro. The cdk inhibitor p21 was found to contain two functional copies of this recognition motif, as determined by in vitro kinase binding/inhibition assays and in vivo growth suppression assays. Thus, these studies have identified a cyclin A- and E-cdk2 substrate recognition motif. Furthermore, these data suggest that p21-like cdk inhibitors function, at least in part, by blocking the interaction of substrates with cyclin-cdk2 complexes.
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PMID:Identification of a cyclin-cdk2 recognition motif present in substrates and p21-like cyclin-dependent kinase inhibitors. 894 16


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