Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.22 (cdc2)
 8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cyclin-dependent kinase-4 inhibitor gene CDKN2, localized at chromosome region 9p21, has been shown to be a familial melanoma gene, though we found that mutations of it are rare in uncultured sporadic melanomas. To determine Whether the region of allelic loss at 9p21 frequently observed in sporadic melanomas includes the CDKN2 locus, new polymorphic microsatellite probes were isolated from the genomic segments surrounding the CDKN2 gene and used for the study of loss of heterozygosity (LOH) in melanoma. The LOH study of matched uncultured tumor-constitutional DNA pairs from 66 metastatic cutaneous and 19 primary uveal melanomas showed that 63% and 32% of the respective tumors suffered allelic loss in the 9p21 region. Two regions of common losses which did not include the CDKN2 locus were observed: in a region of common loss near the D9S157 locus, telomeric to the CDKN2 locus, deletions were observed in 51% of informative cases; in the other region of common loss, near the D9S171 locus, centromeric to the CDKN2 locus, deletions were observed in 47% of informative cases. At the D9S974 locus, located within 20 kb of the CDKN2 gene, deletions were observed in 43% of informative cases. Homozygous deletions of the CDKN2 locus were observed in 8 cases of cutaneous melanoma and 2 cases of uveal melanoma; mutations in CDKN2 exon 2 were found in 2 of the 46 cases with allelic deletion in 9p21. Our results support the following conclusions: (i) somatic mutation of the CDKN2 gene is rare in sporadic melanomas with allelic loss at 9p21; (ii) homozygous loss is more frequent than mutation of the CDKN2 gene in sporadic melanomas; (iii) at 9p21-p23 genes other than CDKN2 may be involved in the development of sporadic melanomas.
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PMID:Deletion mapping of chromosome region 9p21-p22 surrounding the CDKN2 locus in melanoma. 863 88

Deletion at 9p21 is frequent in many tumor types. A candidate tumor suppressor gene, p16INK4a, was mapped to this region and is frequently inactivated by several different mechanisms in many tumor types, including non-small cell lung cancer, but not in small cell lung cancer (SCLC). p16 functions as a cyclin/CDK inhibitor to prevent phosphorylation of pRB. It has been demonstrated that most SCLCs have lost pRB but retained p16, and the inactivation of pRB excludes the inactivation of p16 and vice versa. To determine the potential existence of other tumor suppressor genes on the short arm of chromosome 9 in SCLC, we tested 46 primary SCLCs by microsatellite analysis. We found that more than 89% of the tumors exhibited loss of heterozygosity (LOH) at 9p with three distinct minimal deleted areas. Among those areas, LOH at 9p21 was most frequent (86%), with a peak at a marker 150 kb telomeric to p16INK4a. LOH was also observed in more than 50% of the tumors at two other regions, 9p22 and 9p13. Our data strongly suggest the presence of at least three novel tumor suppressor loci on 9p in SCLC, and further investigations to clone candidate tumor suppressor genes are warranted.
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PMID:Identification of three distinct tumor suppressor loci on the short arm of chromosome 9 in small cell lung cancer. 901 64

We investigated the requirements for targeting the centromeric histone H3 homologue CENP-A for assembly at centromeres in human cells by transfection of epitope-tagged CENP-A derivatives into HeLa cells. Centromeric targeting is driven solely by the conserved histone fold domain of CENP-A. Using the crystal structure of histone H3 as a guide, a series of CENP-A/histone H3 chimeras was constructed to test the role of discrete structural elements of the histone fold domain. Three elements were identified that are necessary for efficient targeting to centromeres. Two correspond to contact sites between histone H3 and nucleosomal DNA. The third maps to a homotypic H3-H3 interaction site important for assembly of the (H3/H4)2 heterotetramer. Immunoprecipitation confirms that CENP-A self-associates in vivo. In addition, targeting requires that CENP-A expression is uncoupled from histone H3 synthesis during S phase. CENP-A mRNA accumulates later in the cell cycle than histone H3, peaking in G2. Isolation of the gene for human CENP-A revealed a regulatory motif in the promoter region that directs the late S/G2 expression of other cell cycle-dependent transcripts such as cdc2, cdc25C, and cyclin A. Our data suggest a mechanism for molecular recognition of centromeric DNA at the nucleosomal level mediated by a cooperative series of differentiated CENP-A-DNA contact sites arrayed across the surface of a CENP-A nucleosome and a distinctive assembly pathway occurring late in the cell cycle.
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PMID:Assembly of CENP-A into centromeric chromatin requires a cooperative array of nucleosomal DNA contact sites. 902 83

Mantle cell lymphoma (MCL) has recently become generally accepted as a subentity of malignant lymphomas that is characterized by the chromosomal translocation t(11;14)(q13;q32), resulting in the overexpression of cyclin D1. Cyclin D1 forms a complex with cell cycle-dependent kinase (cdk) 4, which inactivates the retinoblastoma protein (pRB) via phosphorylation. However, in transgenic mice, the overexpression of cyclin D1 alone is not sufficient for the development of malignant lymphoma. To determine whether other members of the pRB pathway contribute to the malignant transformation of MCL, we analyzed 37 cases of MCL that were well characterized by morphology, immunophenotype, and/or interphase cytogenetics [detection of t(11;14)(q13;q32)]. Interphase fluorescence in situ hybridization was performed using a cosmid contig (250 kb) of the CDKN2/p16 region (encoding an inhibitor of the cyclin D1/cdk4 complex) and a phage contig (200 kb) of the Rb region. CDKN2/p16 deletion was detected in 15 cases (41%), including 6 homozygous deletions; Rb was deleted in 15 cases (41%), all of which were hemizygous deletions. Nine cases (24%) had deletions of both CDKN2/p16 and Rb. Further analysis of a subset of 17 MCLs revealed a highly significant correlation between CDKN2/p16 deletion and proliferation index, determined by the rate of Ki67 expression (P = 0.014; t test). No significant correlation was found between CDKN2/p16 deletion and the blastoid variant of MCL (P = 0.23; Fisher's test) or between proliferation index and blastoid morphology (P = 0.51; t test). Deletion of Rb did not have any impact on cell proliferation in addition to CDKN2/p16 deletion (P = 0.76; t test). Additional analysis of 13q14 deletions suggests that these deletions may target another gene telomeric to Rb. We conclude that deletion of CDKN2/p16 occurs in approximately one-half of MCLs and is a more relevant indicator of the proliferative features as compared to morphological criteria. In contrast, although deletions of chromosomal band 13q14 are frequent in MCL, inactivation of Rb seems not to be involved in the pathogenesis of MCL.
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PMID:Alterations of the cyclin D1/p16-pRB pathway in mantle cell lymphoma. 937 76

Telomerase activity was measured at each phase of the cell cycle in synchronized tobacco (Nicotiana tabacum) BY-2 cells in suspension culture with the use of the telomeric repeat amplification protocol assay. The activity was low or undetectable at most phases of the cell cycle but showed a marked increase at early S phase. The induction of telomerase activity was not affected by the S phase blockers aphidicolin (which inhibits DNA polymerase alpha) or hydroxyurea (which inhibits ribonucleotide reductase), but it was prevented by olomoucine, an inhibitor of Cdc2/Cdk2 kinases that blocks G(1)-S cell cycle transition. These results suggest that the induction of telomerase activity is not directly coupled to DNA replication by conventional DNA polymerases, but rather is triggered by the entry of cells into S phase. Various analogs of the plant hormone auxin, including indole-3-acetic acid, alpha-naphthaleneacetic acid, and 2,4-dichlorophenoxyacetic acid, potentiated the increase in telomerase activity at early S phase; the growth-inactive analog 2,3-dichlorophenoxyacetic acid, however, had no such effect. Potentiation by indole-3-acetic acid of the induction of telomerase activity was dose dependent. Together, these data indicate that telomerase activity in tobacco cells is regulated in a cell cycle-dependent manner, and that the increase in activity at S phase is specifically inducible by auxin.
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PMID:Auxin induction of cell cycle regulated activity of tobacco telomerase. 1040 48

The ends of human chromosomes (telomeres) lose up to 200 bp of DNA per cell division. Chromosomal shortening ultimately leads to senescence and death in normal cells. Many human carcinoma lines are immortal in vitro, suggesting that these cells have a mechanism for maintaining the ends of their chromosomes. Telomerase is a ribonucleoprotein complex that synthesizes telomeric DNA onto chromosomes using its RNA component as a template. Recent studies have shown that inactivation of the retinoblastoma gene product pRb and the cyclin dependent kinase inhibitor p16(INK4A) is required for telomerase activity in epithelial cells. We have demonstrated previously that restoration of functional retinoblastoma (Rb) expression is sufficient to downregulate telomerase activity in carcinoma cells. To determine mechanisms by which Rb regulates telomerase expression, we examined the effects of cyclin dependent kinase (cdk) mediated Rb inactivation and the release of E2F-1 on telomerase activity in human carcinoma cells. Overexpression of cdk2 and cdk4 but not a dominant negative cdk2 rescued Rb mediated downregulation of telomerase activity. Overexpression of the cdk regulatory subunit cyclin D1 also rescued telomerase downregulation and p16 expression alone was sufficient to ablate activity. E2F-1 overexpression was sufficient to rescue Rb mediated reduction of telomerase activity, but an E2F-1 mutant defective in DNA and Rb binding activities failed to produce this effect. Tumor tissue from E2F-1 -/- mice was negative for telomerase activity, indicating a key regulatory role for this transcription factor.
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PMID:Rb and E2F-1 regulate telomerase activity in human cancer cells. 1126 53

To define the genetic changes of flat urothelial lesions, carcinoma in situ (CIS) and moderate dysplasias (DII) were investigated for alterations in the two chromosomal regions most frequently involved in bladder cancer. Overall, 33 CIS and 16 DII from 21 patients were used to microdissect urothelium. Dual color fluorescence in situ hybridization (FISH) using gene locus probes of 9q22 (FACC), 9p21 (CDK), 17p13 (p53), and related centromeric probes was applied on interphase nuclei. In parallel, preamplified DNA of these samples was used for loss of heterozygosity (LOH) analyses with eight microsatellite markers on chromosomes 9p, 9q and 17p, and for sequencing of exons 5-9 of p53. Data indicated nearly identical deletion frequencies for chromosomes 9 and 17 for CIS (chromosome 9, 86%; p53, 84%). DII showed a lower deletion rate in comparison with CIS (chromosome 9, 75%; p53, 53%). A very high correlation between the results of FISH and LOH analyses was found. p53 mutations were detected in 12 of 15 patients (CIS, 72%; DII, 67%). In three of 16 patients with multifocal tumors, oligoclonal lesions were identified by LOH analyses, a finding further supported by sequencing of p53, by which two different p53 deletions were detected in two cases. In conclusion, data from microdissected flat urothelial lesions indicate that chromosome 9 deletions cannot be regarded as indicators of papillary growth, because they are found frequently in both types of flat lesions of the urothelium: those associated with papillary tumors and those that are not. The similar distribution and lower amount of genetic changes in DII render DII a possible precursor lesion of CIS.
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PMID:Occurrence of chromosome 9 and p53 alterations in multifocal dysplasia and carcinoma in situ of human urinary bladder. 1183 May 37

Telomeres have unique properties that distinguish natural chromosomal ends from accidental DNA double-strand interruptions arising elsewhere in the genome. However, the slightest perturbation in their unique organization may obliterate this distinction, channelling chromosomal ends into unwarranted repair events, eventually causing genome instability. Recent results revealed that the processing of both dysfunctional telomeres and accidental DNA double strand breaks (DSB) by DNA repair activities is tightly regulated in a cell cycle-dependent manner by the S phase-promoting cell cycle kinase CDK1 (Clb-Cdc28p). Surprisingly, the cell cycle determinants and the timing of processing at unprotected telomeres closely match the requirements of other transactions that occur at telomeres. In particular, the replenishment of telomeric repeats by telomerase is tightly linked to cell cycle progression and occurs in the same interval. Furthermore, cell survival in the absence of essential telomeric proteins being dependent on telomere-telomere recombination mechanisms may require a similar regulation. Thus, a temporally limited state of telomere dysfunction leading to chromosome end processing may represent a well-governed cell cycle event that constitutes an integral part of the assembly of a new functional telomere.
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PMID:The cell division cycle puts up with unprotected telomeres: cell cycle regulated telomere uncapping as a means to achieve telomere homeostasis. 1749 44

Male mice lacking cyclin A1 protein are sterile. Their sterility results from an arrest in the meiotic cell cycle of spermatocytes, which we now identify as occurring at late diplotene, immediately before diakinesis. The stage of arrest in cyclin A1-deficient mice is distinct from the arrest seen in spermatocytes that are deficient in its putative catalytic partner Cdk2, which occurs much earlier in pachytene. The arrest in cyclin A1-deficient spermatocytes is also accompanied by an unusual clustering of centromeric heterochromatin. Consistent with a possible defect in the centromeric region, immunofluorescent staining of cyclin A1 protein shows localization in the region of the centromere. Phosphorylation of histone H3 at serine 10 in pericentromeric heterochromatin, which normally occurs in late diplotene, is reduced in spermatocytes from heterozygous Ccna1(+/-) testes and completely absent in spermatocytes with no cyclin A1 protein. Concomitantly, the levels of pericentromeric aurora B kinase, known to phosphorylate histone H3 during meiosis, are partially reduced in spermatocytes from testes of heterozygous mice and further reduced in homozygous null spermatocytes. These data suggest a critical and concentration-dependent function for cyclin A1 in the pericentromeric region in late diplotene of meiosis, perhaps in assembly or function of the passenger protein complex.
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PMID:Cyclin A1-deficient mice lack histone H3 serine 10 phosphorylation and exhibit altered aurora B dynamics in late prophase of male meiosis. 1749 82

In the present investigation, we determined the chemotherapeutic efficacy of 9-bromonoscapine (Br-Nos), a more potent noscapine analog, on MCF10A, spontaneously immortalized human normal breast epithelial cells and MCF10A-CSC3, cigarette smoke condensate (CSC)-transformed cells. The results from cytogenetic analysis showed that Br-Nos induced polyploidy and telomeric association in MCF10A-CSC3 cells, while MCF10A cells remained unaffected. Our immunofluorescence data further demonstrated that MCF10A-CSC3 cells were susceptible to mitotic catastrophe on exposure to Br-Nos and failed to recover after drug withdrawal. MCF10A-CSC3 cells exhibited Br-Nos-induced aberrant multipolar spindle formation, which irreversibly impaired the alignment of replicated chromosome to the equatorial plane and finally culminated in cell death. Although MCF10A cells upon Br-Nos treatment showed bipolar spindles with some uncongressed chromosomes, these cells recovered fairly well after drug withdrawal. Our flow-cytometry analysis data reconfirmed that MCF10A-CSC3 cells were more susceptible to cell death compared to MCF10A cells. Furthermore, our results suggest that decreased levels of cdc2/cyclin B1 and cdc2 kinase activity are responsible for Br-Nos-induced mitotic cell arrest leading to cell death in MCF10A-CSC3 cells. This study thus explores the underlying mechanism of Br-Nos-induced mitotic catastrophe in CSC-transformed MCF10A-CSC3 cells and its potential usefulness as a chemotherapeutic agent for prevention of cigarette smoke-induced breast cancer growth.
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PMID:9-bromonoscapine-induced mitotic arrest of cigarette smoke condensate-transformed breast epithelial cells. 1922 61


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