UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The frequencies of mutations in the adenomatous polyposis coli (APC). p53, and p16 (MTS1; multiple tumor suppressor 1/CDK4I; cyclin-dependent kinase 4 inhibitor) tumor suppressor genes were investigated in 23 oral squamous cell carcinomas (SCCs). Loss of heterozygosity (LOH) at the retinoblastoma (Rb) gene locus and on chromosomes 3p (VHL; von Hippel-Lindau disease tumor suppressor gene locus), 5q (APC) and 9p (p16), and H-ras oncogene mutations were also studied in the same samples. Techniques employed were polymerase chain reaction single-strand conformation polymorphism (PCR-SSCP), DNA sequencing and PCR-microsatellite analyses. Mutations of the p53 gene were detected in 26% (6/23) of the tumor specimens. APC and p16 were not mutated in any of the 23 oral SCCs studied. LOH was detected in 17% (2/12 informative cases) at the Rb, in 33% (4/12) on 3p, in 17% (4/ 23) on 5q and in 30% (3/10) on 9p. Mutations of the H-ras gene were detected in 9% (2/23). The only correlation between these genetic alterations and clinicopathologic characteristics was that mutations of the p53 gene were detected more frequently in oral SCCs with lymph node metastasis than in those without it (P < 0.05). These results demonstrate that mutations of the p53 gene and LOH on 3p and 9p frequently occur in oral SCC and play important roles in the development and/or progression of this common malignancy.
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PMID:Alterations of tumor suppressor genes and the H-ras oncogene in oral squamous cell carcinoma. 888 73

The p16INK4a was isolated as a gene which binds and inhibits the cyclin-dependent kinase 4. Other laboratories reported that the isolated gene frequently homozygously deleted within chromosome 9p21 was the p16INK4a. The p16INK4a gene was thought be a hot gene like the p53 gene at the time. Nevertheless, the gene was thought to be a false tumor suppressor gene due to the low incidence the alterations of the gene in various surgical tumor samples. Since then, there have been a lot of reports supporting that p16INK4a is a really tumor suppressor gene including the reports on the high incidence of p16INK4a alterations in some kinds of tumors, on the higher incidence of p16INK4a alterations in the metastatic tumors than that of the primary tumors, on the G1 arrest of p16INK4a lack cells transfected with p16INK4a cDNA, and on the inactivation of p16INK4a gene by hypermethylation. Therefore, the p16INK4a gene has become the tumor suppressor gene, lately. Moreover, the INK4 family including p15INK4b, p18INK4c, and p19INK4d was isolated. These reports taken together, p16INK4a and INK4 family might play important roles in the genesis and development of cancer.
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PMID:[Molecullar structure and function of the p16/INK4a/CDKN2/MTS1 and the INK4 family, and their association with carcinogenesis]. 892 Jun 70

Mantle cell lymphoma (MCL) is molecularly characterized by bcl-1 rearrangement and cyclin D1 gene overexpression. Some aggressive variants of MCL have been described with blastic or large cell morphology, higher proliferative activity, and shorter survival. The cyclin-dependent kinase inhibitors (CDKIs) p21Waf1 and p16INK4a have been suggested as candidates for tumor-suppressor genes. To determine the role of p21Waf1 and p16INK4a gene alterations in MCLs, we examined the expression, deletions, and mutations of these genes in a series of 24 MCLs, 18 typical, and 6 aggressive variants. Loss of expression and/or deletions of p21Waf1 and p16INK4a genes were detected in 4 (67%) aggressive MCLs but in none of the typical variants. Two aggressive MCLs showed a loss of p16INK4a expression. These cases showed homozygous deletions of p16INK4a gene by Southern blot analysis. An additional aggressive MCL in which expression could not be examined showed a hemizygous 9p12 deletion. Loss of p21Waf1 expression at both protein and mRNA levels was detected in an additional aggressive MCL. No p21Waf1 gene deletions or mutations were found in this case. The p21Waf1 expression in MCLs was independent of p53 mutations. The two cases with p53 mutations showed p21Waf1 and p16INK4a expression whereas the 4 aggressive MCLs with p16INK4a and p21Waf1 gene alterations had a wild-type p53. p21Waf1 and p16INK4a were expressed at mRNA and protein levels in all typical MCLs examined. No gene deletions or point mutations were found in typical variants. Two typical MCLs showed an anomalous single-stranded conformation polymorphism corresponding to the known polymorphisms at codon 148 of p16INK4a gene and codon 31 of p21Waf1 gene. These findings indicate that p21Waf1 and p16INK4a alterations are rare in typical MCLs but the loss of p21Waf1 and p16INK4a expression, and deletions of p16INK4a gene are associated with aggressive variants of MCLs, and they occur in a subset of tumors with a wild-type p53 gene.
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PMID:Deletions and loss of expression of p16INK4a and p21Waf1 genes are associated with aggressive variants of mantle cell lymphomas. 897 1

Bladder cancer is the result of a clonal expansion of cancer cells in which multiple genetic alterations have accumulated. Point mutations of the p53 gene are frequently observed in bladder cancer. Loss of a retinoblastoma (Rb) allele is also common in bladder cancer. Recent data have shown frequent loss of heterozygosity (LOH) and homozygous deletion of 9p21, including the region of p16INK4A, a putative tumor suppressor gene, in bladder cancer. LOH is also observed frequently at several other chromosome regions in bladder cancer. These genetic changes have proved useful as clonal markers in the detection of cancer cells in urine. Because of their complexity, most molecular diagnostic approaches are not considered promising cancer screening tools in patients or high-risk populations. However, a new molecular approach, the examination of microsatellite alterations in bladder cancer and urine specimens, is a promising screening tool for the disease. The common genetic alterations in bladder cancer and their use as clonal markers in screening or diagnosis strategies will be discussed.
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PMID:Genetic alterations as clonal markers for bladder cancer detection in urine. 902 18

Alterations, especially homozygous deletions, of the putative tumor suppressor gene, p16 (p16INK4A, MTS1, CDKN2) have been found in tumor cell lines from a variety of neoplasms. Recent studies have reported frequent p16 gene deletions in cell lines from squamous cell carcinomas of the head and neck (SCCHN), although the prevalence of alterations was variable in primary tumors. This study determined the prevalence of point mutations and deletions of the p16 gene in 33 SCCHN. In addition, the association of p16 gene alterations and abnormalities of p53, PRAD-1 (cyclin D1), and the presence of human papillomavirus (HPV) was examined. We found an overall prevalence of p16 alterations of 36% (nine deletions, three single base substitutions, including one polymorphism). Seven tumors (of 29, 24%) had an alteration of p16 and p53; five (of 33, 15%) had alterations of p16 and PRAD-1; three (of 29, 10%) had alterations of all three genes. In addition, of the five tumors with human papillomavirus detected, only one also had a p16 gene alteration. The results indicate a potentially important role for the p16 gene in head and neck tumorigenesis. In addition, the presence of tumors with multiple somatic gene alterations suggest a possible interaction in the dysregulation of the cell cycle.
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PMID:Alterations of the p16 gene in head and neck cancer: frequency and association with p53, PRAD-1 and HPV. 904 88

The expression of cyclins (A, B1, D1, D3, E), cyclin-dependent kinases (CDK2(3), CDK4), and the cyclin-dependent kinase inhibitors (CDKIs) p16(INK4A) and p21(CIP1) was studied in 9 malignant human astrocytoma cell lines using northern blot analysis, immunocytochemistry, and immunoblotting to see if their altered expression contributed to astrocytoma proliferation. Steady state cell cycle mRNA expression was analyzed in unsynchronized tumor cells, and cell cycle phase-specific gene expression was analyzed in 3 synchronized cell lines. Analysis of steady state expression revealed increased levels of several different cyclin transcripts and CDKs in a number of astrocytoma cell lines compared with normal human brain tissue or cultured fibroblasts. We confirm previous reports identifying loss of p16(INK4A) in astrocytomas, as a p16(INK4A) transcript was identified in only 2 cell lines and protein in 1 cell line. However, we now show that p21(CIP1) expression was also diminished relative to normal fibroblasts in all astrocytoma cell lines studied regardless of p53 mutation status. Analysis of synchronized astrocytoma cells revealed altered timing of mRNA expression of several cyclins. Immunocytochemistry revealed a generalized increase in immunoreactivity of astrocytoma cells for most cyclins and CDKs compared with human fibroblasts. Immunoblotting also revealed increased expression of cyclin proteins in a number of astrocytoma cell lines. These data suggest that increased expression of cyclins and CDKs, and decreased expression of CDKIs by human astrocytoma cell lines may contribute to their increased proliferative state. In addition, our data show that alterations in cell cycle genes in astrocytomas are not confined to the cyclin D1-CDK4-pRb axis.
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PMID:Cyclin and cyclin-dependent kinase expression in human astrocytoma cell lines. 905 43

Uncontrolled cellular proliferation is the hallmark of human malignant brain tumors. Their growth proceeds inexorably, in part because their cellular constituents have an altered genetic code that enables them to evade the checks and balances of the normal cell cycle. Recently, a number of major advances in molecular biology have led to the identification of several critical genetic and enzymatic pathways that are disturbed in cancer cells resulting in uncontrolled cell cycling. We now know that the progression of a cell through the cell cycle is controlled in part by a series of protein kinases, the activity of which is regulated by a group of proteins called cyclins. Cyclins act in concert with the cyclin-dependent kinases (CDKs) to phosphorylate key substrates that facilitate the passage of the cell through each phase of the cell cycle. A critical target of cyclin-CDK enzymes is the retinoblastoma tumor suppressor protein, and phosphorylation of this protein inhibits its ability to restrain activity of a family of transcription factors (E2F family), which induce expression of genes important for cell proliferation. In addition to the cyclins and CDKS, there is an emerging family of CDK inhibitors, which modulate the activity of cyclins and CDKs. CDK inhibitors inhibit cyclin-CDK complexes and transduce internal or external growth-suppressive signals, which act on the cell cycle machinery. Accordingly, all CDK inhibitors are candidate tumor suppressor genes. It is becoming clear that a common feature of cancer cells is the abrogation of cell cycle checkpoints, either by aberrant expression of positive regulators (for example, cyclins and CDKs) or the loss of negative regulators, including p21Cip1 through loss of function of its transcriptional activator p53, or deletion or mutation of p16ink4A (multiple tumor suppressor 1/CDKN2) and the retinoblastoma tumor suppressor protein. In this review, we describe in detail our current knowledge of the normal cell cycle and how it is disturbed in cancer cells. Because there have now been a number of recent studies showing alterations in cell cycle gene expression in human brain tumors, we will review the derangements in both the positive and negative cell cycle regulators that have been reported for these neoplasms. A thorough understanding of the molecular events of the cell cycle may lead to new opportunities by which astrocytoma cell proliferation can be controlled either pharmacologically or by gene transfer techniques.
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PMID:Current concepts in neuro-oncology: the cell cycle--a review. 914 59

The proliferation rate of a cell population reflects a balance between cell division, cell cycle arrest, differentiation and apoptosis. The regulation of these processes is central to development and tissue homeostasis, whereas dysregulation may lead to overt pathological outcomes, notably cancer and neurodegenerative disorders. We report here the cloning of a novel zinc finger protein which regulates apoptosis and cell cycle arrest and was accordingly named Zac1. In vitro Zac1 inhibited proliferation of tumor cells, as evidenced by measuring colony formation, growth rate and cloning in soft agar. In vivo Zac1 abrogated tumor formation in nude mice. The antiproliferative activity of Zac1 was due to induction of extensive apoptosis and of G1 arrest, which proceeded independently of retinoblastoma protein and of regulation of p21(WAF1/Cip1), p27Kip1, p57Kip2 and p16INK4a expression. Zac1-mediated apoptosis was unrelated to cell cycle phase and G1 arrest was independent of apoptosis, indicating separate control of apoptosis and cell cycle arrest. Zac1 is thus the first gene besides p53 which concurrently induces apoptosis and cell cycle arrest.
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PMID:Regulation of apoptosis and cell cycle arrest by Zac1, a novel zinc finger protein expressed in the pituitary gland and the brain. 918 26

Doxorubicin (Dox, Adriamicin), a potent broad spectrum anthracycline anticancer drug, selectively inhibits muscle specific gene expression in cardiac cells in vivo and prevents terminal differentiation of skeletal muscle cells in vitro. By inducing the expression of the helix-loop-helix (HLH) transcriptional inhibitor ld2, Dox represses the myogenic function of the MyoD family of muscle regulatory factors (MRFs). In many cell types, terminal differentiation is coupled to an irreversible exit from the cell cycle and MyoD plays a critical role in the permanent cell cycle arrest of differentiating myocytes by upregulating the cyclin dependent kinase inhibitor (cdki) p21. Here, we correlate Dox effects on cell cycle with changes of E2F/DP complexes and activity in differentiating C2C12 myocytes. In Dox-treated quiescent myoblasts, which fail to differentiate into myotubes under permissive culture conditions, serum re-stimulation induces cyclin/cdk re-association on the E2F/DP complexes and this correlates with an evident increase in E2F/DP driven transcription and re-entry of myoblasts into the cell cycle. Despite Dox ability to activate the DNA-damage dependent p53/p21 pathway, when induced in the absence of MyoD or other MRFs, p21 fails to maintain the postmitotic state in Dox-treated myocytes induced to differentiate. Thus, uncoupling p21 induction and MyoD activity results in a serum-reversible cell cycle arrest, indicating that MRF specific activation of cdki(s) is required for permanent cell cycle arrest in differentiating muscle cells.
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PMID:Uncoupling of p21 induction and MyoD activation results in the failure of irreversible cell cycle arrest in doxorubicin-treated myocytes. 921 25

Multiple doses of retinoic acid (RA) were administered intraperitoneally to three groups of male Fischer 344 rats over a 36 h period. The p53 isoforms from bone marrow nuclei in these three groups of rats were analyzed over time by two-dimensional polyacrylamide gel electrophoresis (PAGE) and fluorography for the incorporation of [35S]methionine (p53-synthesis) and [32P]phosphate (p53-phosphorylation). Two groups of rats, young (3.5 months) ad libitum (Y/AL) and old (28 months) ad libitum (O/AL), had free access to Purina rat chow; a third group of old (28 months) diet-restricted rats (O/DR) were maintained on a restricted caloric intake (60% of the AL diet) from 3 months of age. After 36 h of RA dosing, the PAGE patterns of p53 synthesis and phosphorylation in Y/AL and O/DR rats were very similar. In both groups, an increase in complexity was observed with labeling of additional isotypes possessing more acidic isoelectric values. In contrast, the O/AL animals showed a pattern of p53 isoform synthesis and phosphorylation that was considerably less complex and lacked the pronounced shift to more acidic forms following RA dosing. The p53 isoforms of O/AL rats as recognized by wild type (wt) Pab 246 antibody, were also much less dramatic in their increase to more acidic forms. Two-dimensional phospho-tryptic maps of Y/AL and O/DR rats were also very similar, both exhibiting two additional minor 32P-labeled fragments after RA dosing. The maps of O/AL rats did not show the two additional fragments following RA administration. After RA dosing, cyclin protein inhibitors (p16, p21, p27) revealed robust labeling with their respective antibodies in Y/AL and O/DR rats as analyzed by Western blotting. The O/AL animals showed marginally detectable antibody recognition of the cyclin inhibitors after RA dosing. Taken together, these data suggest that the biosynthesis and phosphorylation of p53 isoforms and the expression of cyclin dependent kinase inhibitor proteins is not significantly different between Y/AL and O/DR rats. Further, these results confirm and extend our previous observations that chronic diet-restriction attenuates the age related decline in the metabolic activity of nuclear protein products.
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PMID:P53 synthesis and phosphorylation in the aging diet-restricted rat following retinoic acid administration. 922 23

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