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

To evaluate the role of p16 multiple tumor suppressor (MTS1) and p53 protein in human radiation-induced skin cancer, we examined the expression of p16 and p53 in eight cases using immunohistochemistry. An abnormal location of p16 expression in the cytoplasm was found in seven of eight cases, but the expression of p53 in nuclei was noted in only three of eight cases. These findings suggest that the inactivation of p16 might be related to its binding with another unknown oncoprotein in the cytoplasm and thus lead to carcinogenesis.
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PMID:Abnormal location of p16 protein and overexpression of p53 protein in human radiation-induced skin cancer. 747 71

Changes which lead to excessive cyclin production or to loss of cell cycle inhibition by proteins such as p16/MTS1 may release breast tumour cells from the constraints of cell division. In order to establish the frequency of MTS1/p16 gene alteration and its relation with genetic damage to the p53 and cyclin D1 genes, we have studied these gene abnormalities in 164 human primary breast cancers and in six breast cancer cell lines. Two breast cancer cell lines and one primary tumour showed a homozygous deletion of exon 2 of the MTS1 gene. Using single-strand conformation polymorphism and subsequent sequencing analysis, one tumour showed an alteration at codon 67 (CCC-->CTC; Pro to Leu). Another tumour showed a mutation at codon 98 (without amino acid change) with an additional polymorphism at codon 140. This polymorphism was also found in 13 other tumour samples, but has no effect on (disease-free) survival. From these data we conclude that the occurrence of CDKN2 (p16/MTS1) mutation in primary breast cancer is a rare event and is not likely to be involved in human breast tumour carcinogenesis and progression.
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PMID:Infrequent CDKN2 (MTS1/p16) gene alterations in human primary breast cancer. 754 49

p53 and MTS1 are known to be mutationally inactivated in pancreatic adenocarcinoma. Other tumor suppressor genes are likely also to play a role. To define chromosomal arms which may harbor additional tumor suppressor genes, we performed an extensive allelotype on pancreatic cancer utilizing a xenograft enrichment technique. Eighty-eight percent (28/32) of primary tumors gave rise to xenografts. Eighteen cases were used in a PCR-based allelotype using 283 polymorphic markers, over 2800 informative assays, and an average coverage of 4.1 informative markers per chromosomal arm per case. Highly frequent allelic loss (> 60%) was seen at chromosomes 1p, 9p, 17p, and 18q. Moderately frequent allelic loss (40-60%) was seen at 3p, 6p, 6q, 8p, 10q, 12q, 13q, 18p, 21q, and 22q. The average fractional allelic loss was 0.36. Allelic and sequence stability was demonstrated among 64 parallel and second-passage xenografts derived from 12 cases of pancreatic adenocarcinoma with the ascertainment of over 3000 single alleles. The findings were confirmed in primary tumors. In only two instances were discrepancies revealed between the allelic loss data obtained from corresponding parallel xenografts, probably due to the xenografting of minor subpopulations, reflecting genetic heterogeneity of the primary tumor.
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PMID:Allelotype of pancreatic adenocarcinoma using xenograft enrichment. 755 47

The familial occurrence of gliomas, in the absence of well-defined neurological tumor syndromes such as the neurofibromatoses, is uncommon. We present a family of ten children in which the four eldest suffered from gliomas. Three of these siblings had histologically verified glioblastoma multiforme, and one patient also had an intestinal non-Hodgkin's lymphoma, but there were no stigmata or family history of a neurological tumor syndrome. Cytogenetic studies of the proband revealed a normal karyotype. Molecular genetic analysis of the proband's glioblastoma revealed two mutations in the p53 tumor suppressor gene, but these were not present in the germline DNA, mutations were not detected in the MTS1 gene in the tumors or in the germline DNA. These findings suggest that a genetic factor may be responsible for the clustering of glial tumors in this family, but it is unlikely that the genetic alteration is mutation of the p53 gene. The data are discussed in light of the literature on familial brain tumors.
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PMID:Glioblastoma multiforme in four siblings: a cytogenetic and molecular genetic study. 759 55

In our current understanding of pancreatic carcinoma, these neoplasms can arise either sporadically or in familial clusters. Extensive chromosome abnormalities are frequent, as is loss of heterozygosity at loci known to contain the tumor suppressor genes DCC, p53, and MTS1. Although the genetic examination of all pancreatic cancers is important, the examination of familial cases is especially useful in that these allow the identification of uniform genetic alterations that are inherited through the germ line. Much additional work needs to be done before the genetic basis of pancreatic cancer is completely understood. Although our knowledge is limited, it is clear that genetic analyses can be used to establish the prognosis for a patient with pancreatic cancer and, it is hoped, will someday be used in the management, treatment, and detection of pancreatic cancer.
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PMID:Familial pancreatic cancer and the genetics of pancreatic cancer. 766 Feb 49

Molecular genetic studies of pancreatic ductal adenocarcinoma have revealed the common co-existence of K-ras, p53, and MTS1 mutations. The finding of K-ras mutations in epithelial lesions of ducts suggests them as a precursor intraepithelial neoplasm. The clinical importance of this line of work can only be anticipated at present, and a fuller understanding of genetic alterations in these neoplasms is necessary.
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PMID:Molecular genetics of exocrine pancreatic neoplasms. 766 Feb 50

The MTS1 gene on chromosome 9p21 encodes the p16 inhibitor of cyclinD/Cdk-4 complexes, and is deleted or mutated in a variety of tumour types. We found allelic deletions of 9p21-p22 in 85% of pancreatic adenocarcinomas. Analysis of MTS1 in pancreatic carcinomas (27 xenografts and 10 cell lines) showed homozygous deletions in 15 (41%) and sequence changes in 14 (38%). These included eight point mutations (four nonsense, two missense and two splice site mutations) and six deletions/insertions, all accompanied by loss of the wild-type allele. Sequencing of MTS1 from primary tumours confirmed the mutations. Coexistent inactivations of both MTS1 and p53 was common and suggests that abnormal regulation of cyclin-dependent kinases may play an important role in the biology of pancreatic carcinoma.
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PMID:Frequent somatic mutations and homozygous deletions of the p16 (MTS1) gene in pancreatic adenocarcinoma. 772 12

The 9p21 region of human chromosome 9 is a hot spot for chromosomal aberrations in both cultured cell lines and primary tumors. This region contains a gene, P16 (also called MTS1, CDKN2 and p16INK4), that encodes a presumptive negative cell cycle regulator called p16. P16 is deleted or mutated at high frequency in a variety of tumor cell lines including melanoma and bladder carcinoma lines. As such, it is likely to be a tumor suppressor gene. Here we show that P16 is mutated in primary bladder carcinomas (3 of 33) and melanomas (5 of 34). These findings support studies that show P16 mutations are not solely a product of growth in tissue culture but rather are involved in formation of tumors in viva. Some bladder primary tumors and some bladder and melanoma tumor cell lines contain mutations in both P16 and P53 at frequencies that suggest that p53 and p16 function in different pathways, each of which is important in suppressing malignant transformation.
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PMID:Genetic evidence in melanoma and bladder cancers that p16 and p53 function in separate pathways of tumor suppression. 774 14

MTS1 is a metastasis-associated gene highly expressed in high-metastasis tumors. Here we show that the expression of the suppressor gene p53 protein correlates with mts1 expression. In murine melanoma B16-F1 cells, alpha-melanocyte-stimulating hormone up-regulated mts1 and increased p53 positivity in immunohistochemical tests. In B16-ML8 cells, retinoic acid reduced mts1 expression together with a reduction of p53 positivity. The variation of p53 in association with mts1 gene expression suggests that the mts1 product might interact with and stabilize p53. Taxol-induced aneuploidy increased the proportion of G0G1 phase cells, increased p53 positivity, and down-regulated mts1. This suggests that mts1 transcription may have been negatively regulated, possibly on account of the stabilization of microtubules by taxol. We postulate that the control of G1-S transition by p53 could be due to p53 sequestration by mts1, leading to microtubule depolymerization and signaling entry, into the S phase. Thus, a coordinated function of mts1 and p53 may be involved not only in uncontrolled growth but also in cytoskeletal depolymerization that could lead to cancer invasion.
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PMID:Metastasis-associated mts1 gene expression correlates with increased p53 detection in the B16 murine melanoma. 791 76

Wild-type P16/CDKN2 (p16INK4A, MTS1) cDNA, directed by the cytomegalovirus (CMV) immediate early promoter, was transfected into RT4 and RT112 bladder-carcinoma cell lines bearing a mutated endogenous P16/CDKN2 gene and lacking endogenous P16/CDKN2 respectively. In both cases, only transfected clones with rearranged exogenous P16/CDKN2 cDNA could be grown and propagated in cell culture. This result is reminiscent of transfection of wild-type p53 into cells with a deleted or mutated endogenous gene and suggests that P16/CDKN2, over-expressed under control of the strong CMV promoter, induces growth arrest in RT4 and RT112 cells. Transfer of human chromosome 9 to RT4 cells produced RT4/H9 hybrid clones retaining the P16/CDKN2 gene, since in RT4/H9 cell clones P16/CDKN2-gene expression is modulated by the physiological control of chromosomal regulatory sequence. All the RT4/H9 clones lost the entire chromosome 9, except clone 4 and clone 5, which maintained a deleted and an intact chromosome 9 respectively. Loss of several loci in 9p21, including P16/CDKN2, in tumors induced in nude mice by clone 4 and clone 5 suggests that P16/CDKN2 or other genes in 9p21 suppress tumorigenicity in bladder-carcinoma cells. Tumors induced by clone 4 and clone 5 show loss of markers in 9q. The regions 9q22.3, 9q32-33 and 9q34.2, which were maintained in the 2 clones and lost in their derived tumors, may contain tumor-suppressor genes relevant in bladder carcinoma. The results of this study suggest that the P16/CDKN2 gene controls growth of bladder-carcinoma cells when it is over-expressed, and may be involved in the development of bladder carcinoma, but other genes in 9p21 and 9q may participate in bladder-cancer progression.
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PMID:Growth arrest and suppression of tumorigenicity of bladder-carcinoma cell lines induced by the P16/CDKN2 (p16INK4A, MTS1) gene and other loci on human chromosome 9. 863 1


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