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)

P16 was originally discovered by its ability to interact with CDK4 and to specifically inhibit the catalytic activity of the CDK4/D1 kinase. Increased attention has focused on the p16 gene because of its location on chromosome 9p21, a region involved in chromosomal rearrangements in a large number of tumor types. The p16 gene is also mutated in a large number of tumor cell lines and primary tumor cells. Furthermore, linkage analysis studies suggest that the p16 gene is involved in familial melanoma susceptibility. Due to the oncogenic potential of mutations in this tumor suppressor, it is important to identify and characterize those mutations which alter p16 activity. We have performed a systematic analysis of melanoma associated p16 mutants and of mutants generated in charge to Ala mutagenesis. Using microtiter plate assays to measure both p16-cdk4 binding and cdk4/D1 kinase activity, we show here that the melanoma associated mutants are defective, as are some of the Ala mutants. These results support the idea that p16 mutation, via its deregulation of the cdk4/D1 pathway, is of biological significance in the development of melanoma. Furthermore, we have defined a region within the p16 molecule in which changes are likely to result in a defective protein.
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PMID:Biochemical and mutagenic analysis of the melanoma tumor suppressor gene product/p16. 747 20

A number of low molecular weight proteins have recently been identified that specifically inhibit the function of cyclin-dependent protein kinases in mammalian cells. These fall into two distinct families based on primary sequence comparisons and probable modes of action. Using a simple in vitro binding assay, we show that p21CDKN1 and the related p27KIP1 can efficiently interact with cyclins D1, D2, D3, E and A, and to a lesser extent with cyclin B. By generating a deleted form of cyclin D1 that binds to p21 and p27 but not to Cdks, we confirm that these interaction do not depend on stoichiometric amounts of the relevant kinase subunit. Moreover, p21 and p27 do not detectably associated with kinase subunits unless a cyclin is present. This is in sharp contrast to the properties of p16CDKN2 and p15MTS2/INK4b which bind to Cdk4 and Cdk6 in the absence of any cyclin. These data suggest that p21 and p27 act as broad spectrum regulators of cyclin dependent kinase function by participating in ternary complexes whereas the p16 family specifically interfere with the formation of cyclin D-dependent kinase complexes.
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PMID:Evidence for different modes of action of cyclin-dependent kinase inhibitors: p15 and p16 bind to kinases, p21 and p27 bind to cyclins. 747 82

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.
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PMID:Regulation of E2F-1 gene expression by p130 (Rb2) and D-type cyclin kinase activity. 747 95

This review attempts to provide current information on the role played by the p53 gene in normal and leukemic hematopoiesis with particular emphasis on chronic myeloid leukemia. On the basis of the currently available data we can argue that p53 acts as a negative regulator of proliferation of myeloid mature cells and CD34+ progenitors, and its action is mediated through changes in cell cycle kinetics, mainly before the S phase. The p53-dependent pathway is also regulated by several proteins, including p16, p21, p27 (cyclin-dependent kinase [CDK] inhibitors), and a few oncogenes (bcl-2, bax, MDM-2). Although there is some information about the changes in the p53 gene seen in various types of leukemia, the functions and biological importance of these changes in the pathogenesis of leukemia are still largely elusive. During the past several years, accumulated evidence suggests that changes in the p53 gene are commonly associated with blast crisis of chronic myeloid leukemia (CML) but rarely with chronic phase, and they are represented by rearrangements, deletions and point mutations. As for most of the tumors, the majority of point mutations occur between exons 4 and 8 (hot regions). In patients with CML in blastic crisis the most frequent mechanism of p53 inactivation is complete deletion of one allele in association with a point mutation in the remaining allele.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of p53 in leukemogenesis of chronic myeloid leukemia. 754 4

Chromosome band 9p21 is deleted frequently in non-small cell lung carcinoma (NSCLC), and the p15 and p16 cyclin-dependent kinase-4 inhibitor genes map within this deletion region. Recent studies demonstrated deletion of p15 and p16 in NSCLC metastases and cell lines, suggesting a role for these genes in NSCLC progression. We now report p15 and p16 copy number, as determined by fluorescence in situ hybridization with a P1 contig, in 18 primary NSCLCs. Codeletion of p15 and p16 was found in 15 of 18 NSCLCs, and 1 of the 3 tumors with normal p15 and p16 copy number had a nonsense mutation in exon 2 of p16. We conclude that p15 and p16 are deleted and/or mutated in most primary NSCLCs. Two observations, however, support the involvement of at least one additional tumor suppressor gene on chromosome 9. These observations are: (a) the large size (> 100 kb) of most NSCLC p15/p16 deletions; and (b) the absence of exon 2 mutations in most retained NSCLC p15 and p16 alleles.
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PMID:Codeletion of p15 and p16 genes in primary non-small cell lung carcinoma. 760 11

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.
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PMID:Germline p16INK4A mutation and protein dysfunction in a family with inherited melanoma. 762 55

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.
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PMID:Cloning and characterization of murine p16INK4a and p15INK4b genes. 765 26

The CDKN2 gene located on chromosome 9p21 encodes the cyclin-dependent kinase-4 inhibitor p16. This gene is a putative tumor-suppressor gene because of its frequent alterations in many kinds of tumor cell lines. We analyzed the CDKN2 gene to evaluate its alterations in 52 primary specimens of non-Hodgkin's lymphoma (NHL) or chronic lymphocytic leukemia (CLL) of B-cell origin by Southern blot analysis, polymerase chain reaction-mediated single-strand conformation polymorphism (PCR-SSCP) analysis, and direct sequencing. By Southern blot analysis, we showed homozygous deletion of the CDKN2 gene in 3 of 42 patients with B-NHL (7.1%). After screening by PCR-SSCP analysis, direct sequencing identified one missense mutation at codon 72 (nucleotide 233) and two frameshifts due to a 35-bp deletion arising at codon 49 (nucleotides 163 to 175) in patients with B-NHL (3 of 42, 7.1%). In the patient carrying the missense mutation, hemizygous deletion of the CDKN2 gene was also suspected. In this study, we detected alterations in CDKN2 in 6 of 42 patients (14.3%) with B-NHL and in none of 10 patients with B-CLL. Our results suggest that the CDKN2 alterations contribute in tumorigenesis in some patients with B-NHL.
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PMID:Mutational analysis of the CDKN2 (MTS1/p16ink4A) gene in primary B-cell lymphomas. 767 Jan 11

cdk4-mediated phosphorylation of the retinoblastoma susceptibility protein (Rb) is stimulated by cyclin D1, an oncogene, and inhibited by p16, a candidate tumor suppressor. We examined these proteins in non-small cell lung cancer (NSCLC), which is predominantly Rb positive, and small cell lung cancer (SCLC), which is Rb negative. Most NSCLC and SCLC resection specimens and cell lines overexpress cyclin D1 (indicating that cyclin D1 overexpression and Rb inactivation can coexist in SCLC). However, 9 of 9 Rb-positive NSCLC cell lines have absent or low p16, while an Rb-negative NSCLC line and 5 of 5 SCLC cell lines have high levels of p16. In primary resection specimens, p16 was undetectable in 18 of 27 NSCLC samples and abundant in 4 of 5 SCLC samples. Our data confirm the predicted reciprocity between Rb inactivation and p16 expression in a common human malignancy and define differential p16 expression as a fundamental distinction between NSCLC and SCLC.
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PMID:Reciprocal Rb inactivation and p16INK4 expression in primary lung cancers and cell lines. 783 18

Recently, it has been shown that the homozygous deletion of the cyclin-dependent kinase-4 inhibitor (CDK4I;p16) gene, which is mapped to chromosome 9p21, is frequently observed in a wide spectrum of human cancers, including leukemias. Therefore, the CDK4I gene is thought to be a putative tumor-suppressor gene. We report here that both alleles of the CDK4I gene were completely or partially deleted in human leukemia cells derived from both patients and established cell lines. Thirty-seven hematopoietic cell lines and samples from 72 patients with leukemias were examined for homozygous loss of the CDK4I gene locus by Southern blot analysis. We found that a part or the whole of the CDK4I gene was homozygously deleted in 14 of the 37 (38%) cell lines and 4 of 72 (6%) samples from leukemia patients, including 45 with acute myelocytic leukemia, 14 with acute lymphocytic leukemia (ALL), and 13 with chronic myelocytic leukemia in blastic crisis. In the cell lines, the homozygous deletion of the CDK4I gene was detected in a variety of cell lineages, whereas all 4 cases showing the homozygous deletion were confined to ALL. It should be noted that 2 of them had no cytogenetic abnormalities of chromosome 9. Our results suggest that loss of the CDK4I function may contribute to immortalization of human leukemia cells and play a causative role at least in development of human lymphocytic leukemias.
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PMID:Homozygous loss of the cyclin-dependent kinase 4-inhibitor (p16) gene in human leukemias. 791 62


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