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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)
Previous experiments have demonstrated that the regulation of E2F-1 transcription factor activity is critical for the maintenance of normal cell proliferation control. Regulation of E2F-1 is accomplished through at least two mechanisms: posttranslational regulation by binding proteins such as Rb and transcriptional regulation of the E2F-1 gene. The E2F-1 gene promoter has recently been isolated to examine this latter aspect of E2F-1 regulation. Preliminary studies demonstrate that the E2F-1 promoter is under E2F-dependent negative control during the cell growth response, being transcriptionally repressed through E2F sites in G0 and early G1. We now demonstrate that the presence of an E2F DNA-binding complex containing the Rb-related p130 protein (Rb2) correlates with E2F-1 gene repression and that overexpression of p130 inhibits transcription from the E2F-1 promoter. Moreover, D-type cyclin-dependent kinase activity specifically activates the E2F-1 promoter by relieving E2F-mediated repression but is inhibited by coexpression of the
cdk4
and
cdk6
inhibitor p16 (CDKN2,
MTS1
, INK4). Taken together, these findings suggest that E2F-1 gene expression is controlled during cell cycle progression by a regulatory network involving at least one oncogene (cyclin D1) and several potential tumor suppressor genes.
...
PMID:Regulation of E2F-1 gene expression by p130 (Rb2) and D-type cyclin kinase activity. 747 95
The gene encoding the cell cycle inhibitor p16INK4A (also known as p16,
MTS1
, CDKN2 and INK4) has been mapped to human chromosome band 9p21, a region that also contains a putative melanoma susceptibility gene. Although germline mutations in the coding region of the p16INK4A gene have been detected in some families with inherited melanoma, many other families show no evidence of such mutations and hence the role of p16INK4A in the development of this tumor is still unclear. In this report, we describe a family with inherited melanoma in which a novel mutation in exon 2 of the p16INK4A gene segregates with the disease. The mutant gene encodes a protein with an in-frame deletion of two amino acids (Asp96 and Leu97). We show that the mutant protein is functionally abnormal: it is unable to bind
cdk4
in vitro and does not inhibit colony formation in tertiary passage rat embryo fibroblasts. Moreover, in a metastatic lesion from one patient the wild type p16INK4A allele was deleted and the mutant allele retained. We conclude that family members carrying this germline mutation in the p16INK4A gene are predisposed to melanoma. By extension, these findings implicate the p16INK4A gene in the development of some cases of familial melanoma.
...
PMID:Germline p16INK4A mutation and protein dysfunction in a family with inherited melanoma. 762 55
Cell division is controlled by a series of positive and negative regulators which act at sequential points throughout the cell cycle. Disturbance of these checks could contribute to cancer by allowing excessive cell proliferation. The point in G1 at which cells irrevocably commit to DNA synthesis is controlled by protein complexes consisting of cyclin-dependent kinases (CDK4 or CDK6) and cyclins (D1, D2 or D3). These complexes are inhibited by low molecular weight proteins, such as p16INK4 (refs 1,2), p15INK4B (ref. 3) and p18 (ref. 4). Deletion or mutation of these
CDK
-inhibitors could lead to unchecked cell growth, suggesting that members of the p16INK4 family may be tumour suppressor genes. The recent detection of p16INK4 (
MTS1
) mutations in familial melanoma kindreds, many human tumour cell lines, and primary tumours is consistent with this idea. Previously, we described eight germline p16INK4 substitutions in 18 familial melanoma kindreds. Genetic analyses suggested that five mutations predisposed carriers to melanoma, whereas two missense mutations had no phenotypic effect. We now describe biochemical analyses of the missense germline mutations and a single somatic mutation detected in these families. Only the melanoma-predisposing mutants were impaired in their ability to inhibit the catalytic activity of the cyclin D1/CDK4 and cyclin D1/CDK6 complexes in vitro. Our data provide a biochemical rationale for the hypothesis that carriers of certain p16INK4 mutations are at increased risk of developing melanoma.
...
PMID:Mutations associated with familial melanoma impair p16INK4 function. 764 80
Progression through the G1 phase of the cell cycle is regulated in part by the D-type cyclin-dependent kinases,
cdk4
and
cdk6
. Genes encoding two specific inhibitors of these kinases, human p16(INK4a/
MTS1
) and p15(INK4b/MTS2), map to a region of common cytogenetic abnormalities on chromosome 9p21. The murine cognates of these genes were isolated and identified as mouse p16INK4a and p15INK4b based on their homology to their human counterparts and their selective transcriptional induction by SV40T-antigen and TGF-beta, respectively. Both genes map to position C3-C6 on mouse chromosome 4, in a region syntenic with human chromosome 9p. Amplification of polyadenylated mRNA by polymerase chain reactions revealed no expression of mouse p16INK4a in many normal tissues, whereas p15INK4b was expressed ubiquitously. Like human p16INK4a, mouse p16INK4a binds specifically to
cdk4
and
cdk6
in vitro and inhibits the phosphorylation of the retinoblastoma protein, pRb, by each of these cyclin D-dependent kinases. In mouse MEL erythroleukemia cells, p16INK4a associates preferentially with
cdk6
under conditions where
cdk4
and
cdk6
are coexpressed at equivalent levels. Expression vectors encoding human or mouse p16INK4a caused G1 phase arrest in NIH3T3 fibroblasts, and cyclin D1- and
cdk4
-dependent pRb kinase activities were inhibited in the p16INK4a-arrested cells.
...
PMID:Cloning and characterization of murine p16INK4a and p15INK4b genes. 765 26
The D-type cyclin-dependent kinases CDK4 and CDK6 are complexed with many small cellular proteins (p14, p15, p16, p18, and p20). We have isolated cDNA sequences corresponding to the MTS2 genomic fragment that encodes the CDK4- and CDK6-associated p14 protein. By use of a yeast interaction screen to search for CDK6-interacting proteins, we have also identified an 18-kD human protein, p18, that is a homolog of the cyclin D-CDK4 inhibitors p16 (INK4A/
MTS1
) and p14 (MTS2/INK4B). Both in vivo and in vitro, p18 interacts strongly with CDK6, weakly with CDK4, and exhibits no detectable interaction with the other known CDKs. Recombinant p18 inhibits the kinase activity of cyclin D-CDK6. Distinct from the p21/p27 family of
CDK
inhibitors that form ternary complexes with cyclin-CDKs, only binary complexes of p14, p16, and p18 were found in association with CDK4 and/or CDK6. Ectopic expression of p18 or p16 suppresses cell growth with a correlated dependence on endogenous wild-type pRb.
...
PMID:Growth suppression by p18, a p16INK4/MTS1- and p14INK4B/MTS2-related CDK6 inhibitor, correlates with wild-type pRb function. 800 16
The genes
MTS1
/p16 and MTS2/p15 located in 9p21 encoding
cyclin-dependent kinase-4
inhibitors are homozygously deleted in a number of different tumour cell lines. By PCR analysis of 30 cell lines, including 10 acute lymphoblastic leukaemia (ALL) and 20 lymphoma cell lines, we found homozygous deletions of at least one locus in 11 (37%) cell lines.
MTS1
-specific sequences were deleted in 70% of ALL (reaching 86% in T-cell ALL) but in none of the non-Hodgkin's lymphoma (NHL) cell lines. MTS2-specific sequences were deleted in 40% of ALL and 17% of NHL cell lines. We observed a higher frequency of
MTS1
deletions in ALL than in NHL (P < 0.001) and in T-cell neoplasms compared to B-cell neoplasms (67% v 6%; P = 0.001). In ALL-derived cell lines deletions of the MTS2 gene only occurred in cases with
MTS1
deletions but in NHL only in cases without
MTS1
deletions.
...
PMID:Homozygous loss of the MTS1/p16 and MTS2/p15 genes in lymphoma and lymphoblastic leukaemia cell lines. 854 74
Rearrangement and overexpression of the PRAD1/cyclin D1 oncogene, a cell cycle regulator, have been implicated in the pathogenesis of a subset of parathyroid adenomas. Recently, two cell cycle regulators that inhibit the cyclin D1-associated kinases
cdk4
and
cdk6
have been identified: p16 and p15, the products of the INK4A (also known as CDKN2,
MTS1
) and INK4B (also known as MTS2) putative tumor suppressor genes located on 9p21. Because inactivation of the p16 or p15 genes might be expected to result in oncogenic consequences similar to those from cyclin D1 overexpression, we examined 25 parathyroid adenomas for 1) allelic loss of polymorphic DNA loci on chromosome arm 9p, 2) homozygous deletions of the p16 and p15 genes by Southern blot analysis, and 3) mutations of the p16 and p15 genes by single strand conformational polymorphism analysis. Heterozygous allelic loss at 9p was observed in 4 of 25 adenomas (16%); their smallest shared region of deletion was 9p21-pter, which includes both the p16 and p15 genes. However, single strand conformational polymorphism analysis of all 3 exons of the p16 gene and both exons of the p15 gene failed to demonstrate mutation in any of the 25 cases, and homozygous deletions of the p16 and p15 genes, which are present in some human cancers, were not found in any parathyroid tumors. These observations indicate that inactivating mutations or homozygous deletions of the p16 and p15 genes occur uncommonly, if ever, in parathyroid adenomas; however, loss of a different tumor suppressor gene (or genes) on 9p appears to contribute to the pathogenesis of a significant percentage of these tumors.
...
PMID:Loss of chromosome arm 9p DNA and analysis of the p16 and p15 cyclin-dependent kinase inhibitor genes in human parathyroid adenomas. 885 19
Cyclin-dependent kinase-6 (CDK6) is the earliest inducible member of the
CDK
family in human T lymphocytes, involved in growth factor stimulation and cell cycle progression. CDK6 is one of the targets of p16 and p15,
CDK
inhibitors encoded by
MTS1
and MTS2, two tumor suppressor genes that are frequently deleted in T-cell leukemia. In this study we have investigated CDK6 expression in normal and neoplastic lymphoid tissues using immunohistochemistry and flow cytometry. In normal (six samples) and hyperplastic (four samples) thymuses, strong CDK6 expression was observed in a discrete proportion of cortical thymocytes (10 to 15%), mainly located in the peripheral (subcapsular) zone of the cortex. All tested cases of T-cell lymphoblastic lymphoma/leukemia (T-LBL/ALL) showed strong CDK6 expression in the majority (up to 100%) of neoplastic lymphoid cells. Western blot analysis confirmed the expected CDK6 protein size (40 kd). According to Southern blot analysis, CDK6 overexpression in neoplastic T lymphoblasts was not due to gene amplification. In all other lymphomas investigated (28 peripheral T-cell non-Hodgkin's lympohomas (T-NHLs), 7 CD30+ anaplastic NHLs, 22 high-grade B-NHLs, 15 low-grade B-NHLs, 25 B-cell precursor ALLs), CDK6 was not expressed or expressed at low levels, with the only exception of three nasal angiocentric T-NHLs, all exhibiting CDK6 immunoreactivity comparable to that observed in T-LBL/ALL. These data provide evidence that CDK6 is abnormally expressed in T-LBL/ALL and may be involved in the pathogenesis of this malignancy. In addition, the quantitative difference of CDK6 expression between neoplastic and non-neoplastic cortical thymocytes can be potentially useful in the differential diagnosis of thymic neoplasms on histological and cytological specimens.
...
PMID:Differential expression of cyclin-dependent kinase 6 in cortical thymocytes and T-cell lymphoblastic lymphoma/leukemia. 942 38
During the three last years, the so-called p16 locus on human chromosome band 9p21 has been increasingly implicated in different cancers by a variety of alterations abolishing both copies of the p16INK4a/
MTS1
/CDKN2 gene and the adjacent p15INK4b gene, two members of a family of specific inhibitors of the cyclin D 1-3-CDK4/6 complexes that control cell cycle progression of the G1 to S phase. While these properties are characteristic of tumor suppressor genes, abundant experimental data have clearly identified a link between the loss of function of p16INK4a and tumorigenic processes. The role of p15INK4b alterations in the onset of natural and experimental tumors is less obvious. New light may be shed on the role of the p16 locus in tumor development by the recent finding that an alternative transcript from the p16INK4a gene encodes p19ARF, a negative regulator of cell cycle progression which is unrelated to p16 and p15 and does not act by binding any
CDK
. Hence, this protein appears to be an element of a novel negative cell cycle control mechanism, whose impairing might be involved in tumorigenesis.
...
PMID:Contribution of the dual coding capacity of the p16INK4a/MTS1/CDKN2 locus to human malignancies. 955 10
CDKN2A (p16INK4A/
MTS1
) and CDKN2B (p15INK4B/MTS2) have recently been shown to be potent inhibitors of the cyclin D/
cyclin-dependent kinase-4
complex. Both genes are candidates for the putative tumour suppressor genes located at chromosome 9p21 and are frequently inactivated in many human cancers through homozygous deletion. More recently, another reported pathway of inactivation involves loss of transcription associated with de novo methylation of the 5' CpG island of p16/
MTS1
and p15/MTS2 in human cancers. We examined a total of 34 tumours from 30 hepatocellular carcinoma (HCC) patients for deletion, mutation and DNA methylation of these two genes by polymerase chain reaction (PCR) amplification, sequence analysis and Southern blot. Homozygous deletions of P16/
MTS1
exon 1 were only identified in 1 of 30 cases (3%). Homozygous deletions of p15 exon 1 or exon 2 were found in 7 of 30 cases (13%). Automated sequencing analysis of p16 exon 1 and 2 and p15 exon 1 and 2 failed to demonstrate mutations in either p16 or p15 in any of these specimens. No aberrant 5' CpG island hypermethylation of p16 or p15 was found in any of the primary tumours by Southern blot. These data suggest that the p16/
MTS1
gene has a limited role in HCC. However, deletions of the p15/MTS2 gene are found in 13% HCC and might be involved in a subset of HCC.
...
PMID:Infrequent mutations and no methylation of CDKN2A (P16/MTS1) and CDKN2B (p15/MTS2) in hepatocellular carcinoma in Taiwan. 989 70
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