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)

Preneoplastic and neoplastic hepatocytes undergo c-Myc up-regulation and overgrowth in rats genetically susceptible to hepatocarcinogenesis, but not in resistant rats. Because c-Myc regulates the pRb-E2F pathway, we evaluated cell cycle gene expression in neoplastic nodules and hepatocellular carcinomas (HCCs), induced by initiation/selection (IS) protocols 40 and 70 weeks after diethylnitrosamine treatment, in susceptible Fisher 344 (F344) rats, and resistant Wistar and Brown Norway (BN) rats. No interstrain differences in gene expression occurred in normal liver. Overexpression of c-myc, Cyclins D1, E, and A, and E2F1 genes, at messenger RNA (mRNA) and protein levels, rise in Cyclin D1-CDK4, Cyclin E-CDK2, and E2F1-DP1 complexes, and pRb hyperphosphorylation occurred in nodules and HCCs of F344 rats. Expression of Cdk4, Cdk2, p16(INK4A), and p27(KIP1) did not change. In nodules and/or HCCs of Wistar and BN rats, low or no increases in c-myc, Cyclins D1, E, and A, and E2F1 expression, and Cyclin-CDKs complex formation were associated with p16(INK4A) overexpression and pRb hypophosphorylation. In conclusion, these results suggest deregulation of G1 and S phases in liver lesions of susceptible rats and block of G1-S transition in lesions of resistant strains, which explains their low progression capacity.
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PMID:Cell cycle deregulation in liver lesions of rats with and without genetic predisposition to hepatocarcinogenesis. 1202 19

AIM: Assessment of occurrence and possible prognostic significance of c-myc and Ha-ras amplification, p53 deletion and overexpression of cyclin D1, p53 and p21 in papillary thyroid cancer. MATERIALS AND METHODS: Formalin-fixed, paraffin-embedded tumor tissue from 24 patients were investigated. Dot-blot DNA hybridization was used to detect oncogene amplification or deletion. The expression of oncoproteins was determined by immunohistochemical method. RESULTS: In our samples neither Ha-ras amplification nor p53 deletion were found. Low c-myc amplification (mean: 2.55) occured in 4 cases (17%). p53 protein was detected in 16 samples (66.6%), with p21 expression (chi(2)=7.02, p<0.01) in 6 cases (25%). The p53 expression did not influence the tumor fenotype. Cyclin D1 overexpression was found in 12 cases (50%), it was often associated with p21 expression (chi2=10.1, p<0.001) and in inverse relation to the tumor lymphocytic infiltration (chi(2)=5.35, p<0.05). Increased expression of estrogen receptor was shown in 4 cyclin D1 positive samples (17%). CONCLUSIONS: The p53 detected in our study is likely not to be mutant protein in all cases because its presence was associated with p21 expression that the mutant protein cannot induce and also it did not mean more aggressive tumor phenotype. The connection of cyclin D1 overexpression with the lymphocytic infiltration of the tumor suggests that the increased expression of cyclin D1 means poor prognosis. The coexpression of cyclin D1 and p21 raises the modulative character of the p21 protein, thought to be a tumor suppressor originally, but we find a CDK-independent, estrogen receptor mediated effect of cyclin D1 more likely, which has been described in breast cancer and is also proved by the coexpression of cyclin D1 and estrogen receptor detected here.
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PMID:[Investigation of oncogene amplification or deletion, and oncoprotein expression in papillary thyroid cancer] 1205 Jun 91

Substantial evidence suggests that cyclin D1 plays a pivotal role in the control of the hepatocyte cell cycle in response to mitogenic stimuli, whereas the closely related protein cyclin D3 has not been extensively evaluated. In the current study, we examined the regulation of cyclins D1 and D3 during hepatocyte proliferation in vivo after 70% partial hepatectomy (PH) and in culture. In contrast to cyclin D1, which was nearly undetectable in quiescent liver and substantially up-regulated after PH, cyclin D3 was constitutively expressed and induced only modestly. In the regenerating liver, the concentration of cyclin D3 was only about 10% of that of cyclin D1. Cyclin D1 formed complexes primarily with cyclin-dependent kinase 4 (cdk4), which were markedly activated in the regenerating liver and readily sequestered the cell cycle inhibitory proteins, p21 and p27. Cyclin D3 bound to both cdk4 and cdk6. Cyclin D3/cdk6 activity was readily detectable in quiescent liver and changed little after PH, and this complex appeared to play a minor role in sequestering p21 and p27. In cultured hepatocytes, epidermal growth factor or insulin had little effect, but the combination of these agents substantially induced cyclin D1 and cell cycle progression. Inhibition of Mek1 or phosphoinositide 3-kinase markedly inhibited cyclin D1 expression and replication. In contrast, cyclin D3 was expressed in the absence of mitogens and was only modestly affected by these manipulations. In addition, growth-inhibitory extracellular matrix conditions inhibited cyclin D1 but not cyclin D3 expression. In conclusion, these results support the concept that cyclin D1 is critically regulated by extracellular stimuli that control proliferation, whereas cyclin D3 is regulated through different pathways and plays a distinct role in the liver.
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PMID:Differential regulation of cyclins D1 and D3 in hepatocyte proliferation. 1208 46

Genetic aberrations in the regulatory circuits that govern transit through the G(1) phase of the cell cycle occur frequently in human cancer and overexpression of the G(1) phase cyclin, cyclin D1, is one of the most commonly observed alterations. Cyclin D1 accumulates and activates its cognate CDK (CDK4/6) in response to mitogenic growth factors in early to mid G(1) phase. The resulting cyclin D1-dependent kinase initiates the phosphorylation-dependent inactivation of the retinoblastoma tumor suppressor protein. Mitogen-dependent activation of the cyclin D1 kinase occurs through increased transcription, protein accumulation, cyclin/CDK assembly, reduced cyclin proteolysis, and decreased nuclear export. Perturbations at any step, which result in reduced growth factor requirements for cyclin D1/CDK activation, will provide cells with a distinct growth advantage over their normal counterparts and thus likely represents an early event in neoplasia.
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PMID:Cycling to cancer with cyclin D1. 1243 68

Estrogen receptor-mediated transcription is enhanced by overexpression of G1/S cyclins D1, E or A in the presence as well in the absence of estradiol. Excess of G1/S cyclins also prevents the inhibition of transactivation of estrogen receptor (ER) by the pure antiestrogen ICI 182780. Cyclin D1 mediates this transactivation independent of complex formation to its CDK4/6 partner. This raises the possibility that overexpression of G1/S cyclins renders growth of ER-positive breast cancer hormone-independent and resistant to treatment with antiestrogens. Transient transfection of ER-positive breast cancer cell lines T47D and MCF7 with G1/S cyclins could overcome the growth arrest induced by ICI 182780 treatment. The ability of various cyclin D1 mutants to overcome the ICI 182780 mediated growth arrest corresponded with their ability to stimulate cyclin A- and E2F- promoter based reporter activities in the presence of ICI 182780. Transfection of a mutant cyclin D1 (cyclin D1-KE) that was unable to bind CDK4 and was reported to transactivate ER in the presence of ICI 182780, could not stimulate proliferation in ICI 182780 treated cells. On the other hand, cyclin D1-LALA, which is unable to stimulate ERE transactivation, could overcome the ICI 182780 cell cycle arrest. Furthermore, transient transfection of T47D cells using cyclin D1 together with a catalytic inactive mutant of CDK4 (CDK4-DN) indicated that the observed effect is due to binding to CDK inhibitors. However, a moderate, sixfold overexpression of cyclin D1 in stably transfected MCF7 cells did not overcome the ICI 182780 mediated growth arrest. These results indicate that CDK-independent transactivation of the estrogen receptor by cyclin D1 is by itself, not sufficient to result in estradiol-independent growth of breast cancer cells, whereas a vast overexpression of G1/S cyclins is able to do so, most likely by capturing of CDK inhibitors.
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PMID:Involvement of G1/S cyclins in estrogen-independent proliferation of estrogen receptor-positive breast cancer cells. 1244 51

Cyclin D1 and cyclin E are overexpressed in approximately 45% and 30% of breast cancers, respectively, and adverse associations with patient outcome have been reported. The potential roles of cyclin D1 and cyclin E expression as markers of therapeutic responsiveness to the pure steroidal antiestrogen ICI 182780 were investigated using T-47D breast cancer cell lines constitutively overexpressing cyclin D1 or cyclin E. Measurement of S phase fraction, phosphorylation states of the retinoblastoma protein, and cyclin E-cyclin-dependent kinase (Cdk) 2 activity demonstrated that overexpression of cyclin D1 decreased sensitivity to antiestrogen inhibition at 24 and 48 h. Overexpression of cyclin E produced a less pronounced early cell cycle effect indicating only partial resistance to antiestrogen inhibition in the short-term. In ICI 182780-treated cyclin D1-overexpressing cells, sufficient Cdk activity was retained to allow retinoblastoma protein phosphorylation and cell proliferation, despite an increase in the association of p21 and p27 with cyclin D1-Cdk4/6 and cyclin E-Cdk2 complexes. After longer-term (>7 days) treatment, antiestrogens inhibited colony growth in cyclin D1- or cyclin E-overexpressing breast cancer cells, but with an approximately 2-2.5-fold decrease in dose sensitivity. This was associated with a fall in cyclin D1 levels, a reduction in the half-life of cyclin D1 protein and a decline in cyclin E-Cdk2 activity in cyclin D1-overexpressing cells, and the maintenance of cyclin E-p27 association in the cyclin E-overexpressing cells. These data confirm that cyclin D1 expression and cyclin E-p27 association play important roles in antiestrogen action, and suggest that cyclin D1 or cyclin E overexpression has subtle effects on antiestrogen sensitivity. Additional studies to elucidate the contribution of alterations in cyclin D1 stability to antiestrogen action and to assess the relationship between antiestrogen sensitivity and expression of cyclin D1, cyclin E, or p27 in a clinical setting are required.
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PMID:Constitutive overexpression of cyclin D1 but not cyclin E confers acute resistance to antiestrogens in T-47D breast cancer cells. 1246 Sep 7

Increasing evidence has indicated that perturbation of cyclins is one of the major factors leading to cancer. The aim of this study was not only to investigate various cell cycle-related kinase activities in hepatocellular carcinoma (HCC), but also to analyze the difference of cell cycle-related kinase activity levels between hepatitis C virus (HCV)-induced HCC and HCV-induced cirrhosis. The protein levels of cyclins D1, E, A, and H, and of cyclin dependent kinase 1 (Cdk1), Cdk2, Cdk4, Cdk6, and Cdk7 in HCC and in surrounding nontumorous cirrhosis were determined by Western blot. The enzymatic activities of cyclins D1, E, A, Cdk1, Cdk4, Cdk6, Cdk7, and Wee1 were measured using in vitro kinase assays. Protein levels and kinase activities of cyclin D1, Cdk4, cyclin E, cyclin A, and Wee1 were significantly elevated in HCC compared with surrounding cirrhotic tissues. The enhanced cyclin D1-related kinase activity in HCC was accompanied by the up-regulation of Cdk4 activity, but not Cdk6 activity. The kinase activities of Cdk6, Cdk7, and Cdk1 did not differ between HCC and surrounding cirrhotic tissues. In addition, the protein levels and kinase activities of cyclin D1, Cdk4, and cyclin E were higher in poorly differentiated HCC and advanced HCC. In conclusion, the increases of cyclin D1, Cdk4, cyclin E, cyclin A, and Wee1 play an important role in the development of HCC from cirrhosis. Cyclin D1, Cdk4, and cyclin E activation may be closely related to the histopathologic grade and progression of HCC.
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PMID:Cyclins and cyclin-dependent kinases: comparative study of hepatocellular carcinoma versus cirrhosis. 1260 50

BACKGROUND: Eukaryotic initiation factor 4E (eIF4E) is essential for cap-dependent initiation of translation. Cell proliferation is associated with increased activity of eIF4E and elevated expression of eIF4E leads to tumorigenic transformation. Many tumors express very high levels of eIF4E and this may be a critical factor in progression of the disease. In contrast, overexpression of 4EBP, an inhibitor of eIF4E, leads to cell cycle arrest and phenotypic reversion of some transformed cells. RESULTS: A constitutively active form of 4EBP-1 was inducibly expressed in the human breast cancer cell line MCF7. Induction of constitutively active 4EBP-1 led to cell cycle arrest. This was not associated with a general inhibition of protein synthesis but rather with changes in specific cell cycle regulatory proteins. Cyclin D1 was downregulated while levels of the CDK inhibitor p27Kip1 were increased. The levels of cyclin E and CDK2 were unaffected but the activity of CDK2 was significantly reduced due to increased association with p27Kip1. The increase in p27Kip1 did not reflect changes in p27Kip1 mRNA or degradation rates. Rather, it was associated with enhanced synthesis of the protein, even though 4EBP-1 is expected to inhibit translation. This could be explained, at least in part, by the ability of the p27Kip1 5'-UTR to mediate cap-independent translation, which was also enhanced by expression of constitutively active 4EBP-1. CONCLUSIONS: Expression of active 4EBP-1 in MCF7 leads to cell cycle arrest which is associated with downregulation of cyclin D1 and upregulation of p27Kip1. Upregulation of p27Kip1reflects increased synthesis which corresponds to enhanced cap-independent translation through the 5'-UTR of the p27Kip1 mRNA.
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PMID:Expression of constitutively active 4EBP-1 enhances p27Kip1 expression and inhibits proliferation of MCF7 breast cancer cells. 1263 4

Cerebral ischemia induces microglial and astroglial activation, which may play a crucial role in the development of ischemic neuronal damage. In this study, we examined the role of cell cycle proteins in glial proliferation in the hippocampus following 10min of global cerebral ischemia in the rat. Proliferating cells were identified with immunostaining for proliferating cell nuclear antigen (PCNA), and glial cells were visualized with immunostaining for microglial response factor-1 (microglia/macrophages) and glial fibrillary acidic protein (astrocytes). Expression of cyclin D1 and cyclin-dependent kinase-4 was also examined with double label immunohistochemistry. Proliferating cells in the CA1 region after ischemia consisted of microglia and much fewer astrocytes. Microglial activation and proliferation (7.6-fold increase in number after 7 days) were preceded by an increase in PCNA-positive microglia; 83% of microglia were PCNA-positive after 2 days. Astrocytes increased by 1.8-fold after 7 days, and only 6% of astrocytes became PCNA-positive by day 7. Cyclin D1 and cyclin-dependent kinase-4 immunoreactivity appeared in these glial cells in parallel with the expression of PCNA. The findings suggest that the accumulation of brain macrophages elicited by transient cerebral ischemia is caused predominantly by activation and proliferation of resident microglia through the upregulation of cell cycle proteins.
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PMID:Cell cycle protein expression in proliferating microglia and astrocytes following transient global cerebral ischemia in the rat. 1275 83

Overexpression of cyclin D1, the regulatory subunit of cyclin-dependent kinases (cdk4 and cdk6) involved in cell cycle control, has often been found in breast cancer and other types of human cancer. Increased expression, or stability, of cyclin D1 molecules may cause sufficient cdk4 activation to produce retinoblastoma protein phosphorylation independently of mitogenic signals; this results in commitment of cells to the G1 phase at mitosis. In the present study, cyclin D1 expression was investigated in pre-cancerous and cancerous lesions of the canine mammary gland by a complex experimental approach, which included Western blot and immunohistochemical analysis of cyclin D1 and the related molecular system. Furthermore, to define relationships between cell growth and expression of cyclin D1, proliferative activity was studied by the AgNOR technique. The study provided the following information. Cyclin D1 overexpression was largely independent of the type of proliferative anomaly. Indeed, cyclin D1 was expressed in 60% of the pre-cancerous lesions and in 44% of cancerous lesions. Mitotic activity and cyclin D1 expression were related: mammary lesions that expressed cyclin D1 showed a high proliferative ratio, the opposite being true of cyclin D1-negative cell populations. This study may contribute to the establishment of an animal model for anti-cancer research based on cyclin D1 suppression or cdk inactivation, or both.
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PMID:Cyclin D1 expression in pre-cancerous and cancerous lesions of the canine mammary gland. 1283 7


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