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: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Two small cell lung cancer (SCLC) cell lines were established from metastases of a patient during the course of the disease. SCLC 74A was derived from biopsy material obtained at the time of diagnosis and SCLC 74B was from a biopsy specimen of a relapsed tumor obtained after treatment. A transition occurred from SCLC 74A, an intermediate form with 5% large cells to SCLC 74B, a standard mixed form with 20% of large cells, with a decrease in neuroendocrine markers and a substantial increase in P-glycoprotein, a multidrug resistance marker. For both cell lines, R-banding and FISH indicated a del(1)(p35pter) also found in other neural-crest-derived tumors, the loss of regions with suspected tumor suppressor genes at 3p, 5q, and 17p, and a recurrent translocation of the 6q24-6qter region to 10p14. Further genetic modifications in SCLC 74B affected chromosomes 2, 3, 5, 10, 11, 14, and 15. The main observations were a der(2)t(2;5)(p16;q?); a der(3;11)(q10;p10) in SCLC 74A which became der(3;14)(q10;p10) and der(11;14)(p10;q10) in SCLC 74B; and the insertion of the 5q13-5q31 region in the der(10)t(6;10). The finding of the same structural abnormalities in both cell lines suggests a monoclonal origin for both metastases. Hypotetraploid cells were in the same proportion as large cells whose number was a characteristic feature of each cell line. They possessed twice the same chromosomal alterations observed in the hypodiploid cells. This suggests a permanent process of tetraploidization.
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PMID:Evolution of chromosomal alterations and biologic features in two small cell lung carcinoma cell lines established from one patient during the course of the disease. 769 32

Sporadic and familial malignant melanoma susceptibility has been linked to defects in the chromosomal region 9p21. Recently, a putative 9p21 tumor suppressor gene, the cyclin dependent kinase inhibitor 2 (CDKN2) or p16 gene, has been shown to be deleted, mutated, or rearranged in a high percentage of sporadic melanoma cell lines, as well as mutated in the germline of a proportion of familial melanoma patients. CDKN2 encodes a M(r) 16,000 protein (p16) that plays a key role in cell cycle control by binding to the cyclin-dependent kinase 4 enzyme and inhibiting its ability to phosphorylate critical substrates necessary for transition past the G1 phase of the cell cycle. Thus, mutations or deletions of the CDKN2 gene could result in abnormal proliferation via defective cell cycle control. The correlation of 9p21 cytogenetic and molecular alterations with the clinical stages of melanoma progression suggests that dysfunction of a gene within this chromosomal region is critical to the evolution of melanoma. However, it remains unclear whether this gene is the CDKN2 gene. If so, then loss of p16 is potentially an initiating or early event in melanoma progression. To address the issues of what is the potential involvement of the CDKN2 gene in sporadic melanoma and precisely when during the clinically evident stages of melanoma progression defects in CDKN2 occur, we have evaluated by immunohistochemistry the expression of p16 protein in 103 melanocytic lesions representing all stages in the progression of melanoma. Our results suggest that loss of p16 protein expression is (a) not necessary for tumor initiation in malignant melanoma because all melanomas in situ and the majority of primary invasive melanomas retain expression of this protein; and (b) potentially more related to invasiveness or the ability to metastasize, because 52% of primary invasive tumors and 72% of metastatic lesions show partial or complete loss of expression of p16.
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PMID:Loss of expression of the p16/cyclin-dependent kinase inhibitor 2 tumor suppressor gene in melanocytic lesions correlates with invasive stage of tumor progression. 779 91

The MTS1/CDK4I gene encodes a 16 kDa cyclin kinase inhibitor and maps to chromosome 9p21. Previous studies have suggested the presence of a major tumour suppressor gene at this locus which may be inactivated in head and neck squamous cell carcinoma (HNSCC). To determine the status of this gene in human primary and metastatic HNSCC, we examined the locus and its transcript for abnormalities by polymerase chain reaction (PCR). Out of 14 cell lines studied, four had lost only exon 1, one had lost only exon 2, three had lost both exons 1 and 2, and none of the remaining six lines expressed a normal p16 mRNA. These latter six cell lines expressed p16 transcripts that had suffered deletions ranging in size from 2-16 base pairs. In each case, deletions led to a change of reading frame. Furthermore, in two cases abnormalities in the MTS1/CDK4I gene were identical in cells derived from metastatic tumours as compared to cells derived independently from the corresponding primary tumour. The identical nature of mutations observed in primary tumours and metastases derived from the same patient provides strong evidence that inactivation of p16 function was an in vivo event.
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PMID:MTS1/CDK4I is altered in cell lines derived from primary and metastatic oral squamous cell carcinoma. 800 Dec 21

A common characteristic of cancer cells is unrestrained cell division. This may be caused by mutational changes in genes coding for components of cell cycle-controlling networks. Alterations in genes involved in G1 checkpoint control have been registered in many human tumours, and investigations from several laboratories show that such alterations, taken together, are the most frequent changes detected in cancer cells. The present paper describes mutational analysis by polymerase chain reaction-single-strand conformation polymorphism (PCR/SSCP) and nucleotide sequence analysis of the genes coding for the p15, p53 and N-ras proteins in 26 metastases from 25 melanoma patients. The registered mutation frequencies add together with previously registered mutations in p16 in the same patient samples to a substantial total frequency of 44% of patients with mutation in at least one of the investigated genes. These results show the occurrence of heterogeneous defects among components of the cell cycle controlling machinery in a human melanoma tumour sample collection and demonstrate that the total frequency of detected alterations increases with the number of cell cycle controlling genes included in the screening panel.
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PMID:Genes involved in cell cycle G1 checkpoint control are frequently mutated in human melanoma metastases. 882 61

Orthotopic transplantation of human tumors in nude mice reproduces the pattern of local growth and distal dissemination. The aim of our study was to determine the pattern of genetic alterations in human carcinomas of the exocrine pancreas orthotopically implanted and perpetuated in nude mice. Eight of the sixteen orthoimplanted human pancreatic carcinomas were perpetuated through several passages. Four perpetuated tumors followed distinct patterns of distal dissemination. Point mutations in the K-ras gene, genetic aberrations in the p53 and p16 genes, and allelic losses at retinoblastoma, adenomatous polyposis coli, and deleted in colorectal cancer loci were analyzed. Perpetuated tumors maintained the pattern of genetic alterations present in primary tumors. Five perpetuated tumors contained K-ras mutations, and all tumors contained p53 and/or p16 genetic aberrations. Allelic losses were present in four of the perpetuated tumors. Additional genetic alterations were detected in 6 of 35 metastases analyzed. Five of 9 peritoneal metastases or malignant ascitic cells acquired either K-ras or second p53 mutations. In contrast, only 1 of 25 liver metastases and none of the lymph node metastases acquired additional mutations. No additional p16 gene aberrations or other allelic losses were evidenced during tumor dissemination. We conclude that orthotopically implanted pancreatic carcinomas xenografted in nude mice show a high degree of genetic stability. Mutations in K-ras and p53 genes can occur in this model system in the more advanced stages of pancreatic tumor progression, mainly during peritoneal dissemination.
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PMID:Orthotopic xenografts of human pancreatic carcinomas acquire genetic aberrations during dissemination in nude mice. 897 Nov 80

The p16/CDKN2(MTS1) gene encoding for the p16 inhibitor of cyclin D/CDK4 complexes is frequently mutated and deleted in a large fraction of melanoma cell lines, and p16 germline mutations have also been observed in familial melanomas. Moreover, a CDK4 gene mutation, responsible for a functional resistance of CDK4 kinase to p16 inhibitory activity, has been described to occur in some cases of familial melanoma. These data strongly support the idea that deregulation of the CDK4/cyclin D pathway, via CDKN2 or CDK4 mutations, is of biological significance in the development of melanoma. To shed light on the role of these alterations in the development and progression of sporadic melanoma, 12 primary melanomas and 9 corresponding metastases were analyzed for CDKN2 and CDK4 gene mutations. Of the 12 primary melanomas analyzed, 4 showed the presence of mutational inactivation of the p 16 protein and 2 carried silent mutations. No metastases showed the presence of CDKN2 mutations, indicating that mutations of this cyclin-dependent kinase inhibitor is not common in the progression of sporadic melanoma. On the other hand, the absence, in the metastases, of the CDKN2 mutation detected in the corresponding primary tumors suggests that 9p21 homozygous deletion may play a major role in the metastatic spreading of this type of tumor. None of the cases analyzed showed the presence of an Arg24Cys mutation, which functionally protects CDK4 from p16 inhibition. This indicates that CDK4 mutation plays a minor role in the development and progression of sporadic melanoma.
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PMID:p16/CDKN2 and CDK4 gene mutations in sporadic melanoma development and progression. 903 65

There has long been a clinical need for improved molecular pathology in melanoma, particularly in the histopathology laboratory where the differentiation of melanoma from its benign counterparts is commonly difficult. The need for improved molecular pathology has recently increased as immunotherapeutic options for the treatment of the tumour evolve. It seems likely that in the relatively near future tumour typing before and during immunotherapy will be needed. The identification of the tumour suppressor gene coding for the protein p16 as an important gene in the pathogenesis of melanoma is of great interest but the identification of oncogenes having a significant role in melanoma carcinogenesis has been slow.
Cancer Metastasis Rev 1997 Jun
PMID:Molecular pathology of melanoma. 915 84

The tumor suppressor gene CDKN2 (p16/MTS1) resides on chromosome 9p21 and encodes a 16 kDa inhibitor of the cyclin-dependent kinases. Inactivation of CDKN2 by homozygous deletion, point mutation, and recently described aberrant methylation in the 5' promoter region may increase progression through the cell cycle in tumors. In this study, we examine the CDKN2 gene for the presence of inactivating alterations in human prostate cancer. Sequence analysis of cell lines revealed no mutation in LNCaP, PC3, and TSU-PR1 and a missense mutation, GAC-->TAC (asp to tyr), in exon 2 of the DU145 cell line at codon 76. No mutations were identified in three primary prostate cancers or in seven lymph node metastases. Loss of heterozygosity (LOH) was analyzed by analysis of microsatellite markers in the vicinity of the CDKN2 gene. LOH was detected in 12 (20%) of 60 primary tumors at one or more loci and in 13 (46%) of 28 metastases. Methylation analysis of the CpG-rich promoter region revealed a dense methylation of CDKN2 in cell lines PC3, PPC1, and TSU-PR1, and this was found to correlate with a lack of mRNA expression by reverse transcription-polymerase chain reaction. A demethylating agent, 5-aza-2'-deoxycytidine, induced reexpression when cells were exposed in vitro. DU145 and LNCaP expressed the CDKN2 transcript and were unmethylated in the promoter region. Three of twenty-four (13%) primary prostate cancers and 1 of 12 metastatic tumors demonstrated promoter methylation. No normal prostate tissues were methylated at the CDKN2 gene promoter. One tumor was found to contain concomitant LOH and promoter methylation indicative of biallelic inactivation. A comprehensive analysis of CDKN2 in prostate cancer reveals that point mutations are infrequent, but gene deletion and methylation combine to inactivate CDKN2 in a subset of tumors. Moreover, alterations in this gene may represent a late event in prostate cancer progression.
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PMID:Deletional, mutational, and methylation analyses of CDKN2 (p16/MTS1) in primary and metastatic prostate cancer. 917 99

We have examined the presence of p16MTS1/CDK4I gene deletions, mutations and methylation status, and 9p21-23 deletions in a series of 46 squamous cell carcinomas of the larynx and paired normal mucosa previously characterized for cyclin D1 gene amplification and overexpression. pRb expression was also examined by immunohistochemistry. p16MTS1/CDK4I mutations were found in 10/46 (22%) carcinomas and hypermethylation in 2/31 (7%). Loss of heterozygosity at 9p21-23 was found in 24 out of 42 (57%) carcinomas examined. All p16MTS1/CDK4I mutated cases and the two hypermethylated carcinomas showed 9p21-23 loss of heterozygosity. The loss of heterozygosity correlated with advanced local invasion (P=0.0045), lymph node metastases (P=0.0326), stage IV of the tumors (P=0.0058), and existence of cyclin D1 amplification/overexpression (P < 0.03). Only one out of 37 carcinomas was negative for pRb expression. No alterations in p16 gene or 9p21-23 loss of heterozygosity were detected in this case. These findings indicate that p16MTS1/CDK4I is frequently inactivated by gene mutation, hypermethylation, and allelic deletions in a significant subset of squamous cell carcinomas of larynx. Since 9p21-23 loss of heterozygosity was more frequently detected than p16MTS1/CDK4I mutations, and mutated carcinomas invariably had loss of heterozygosity, allelic losses probably precede the p16MTS1/CDK4I mutations. Their association with cyclin D1 deregulation in advanced carcinomas could indicate a possible cooperative effect in the progression of these neoplasms.
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PMID:p16MTS1/CDK4I mutations and concomitant loss of heterozygosity at 9p21-23 are frequent events in squamous cell carcinoma of the larynx. 933 20


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