Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Homozygous deletions of 9p21, including the cyclin-dependent kinase inhibitor genes p16INK4 and p15INK4B, have been reported frequently in melanoma (as well as other tumor) cell lines. Germline mutations within the p16INK4 gene have also been described in a proportion of familial melanoma kindreds, suggesting that p16INK4 is the 9p21 "melanoma" gene. We have previously concluded that deletion of this chromosomal region can occur early (before metastasis) and in vivo in sporadic melanoma due to the identification of identical hemizygous losses on 9p21 in six autologous melanoma cell lines established from an individual patient (DX). These related cell lines have now been used to evaluate the timing of deletion/mutation of the p16INK4 and p15INK4B genes during tumor progression in melanoma. Surprisingly, homozygous deletions of a < or = 200-kb region surrounding p15INK4B, but not p16INK4, were detected in all six cell lines. Furthermore, single strand conformation polymorphism and sequencing analysis of the remaining p16INK4 allele in each case revealed only one intragenic mutation (in DX-6), whereas Western analysis provided evidence that p16INK4 protein was expressed in all six instances. These findings, taken together with those generated on other unrelated melanoma tumors and cell lines, suggest that hemizygous loss (or haplo-insufficiency) of the p16INK4 gene may be enough to place a melanocyte on a tumor pathway, and/or that the p16INK4 gene is not the sole 9p21 locus targeted in sporadic melanoma.
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PMID:Homozygous loss of the p15INK4B gene (and not the p16INK4 gene) during tumor progression in a sporadic melanoma patient. 758 28

This review focuses on genes that have a proven or presumed role in the genesis of astrocytic tumors. A common theme in glioblastoma is the amplification of genes that code for growth factor receptors of the protein-tyrosine kinase family (epidermal growth factor receptor, platelet-derived growth factor receptor-alpha, met). The majority of glioblastomas also have alterations in genes that encode factors that are involved in cyclin-dependent kinase activity, which is a critical step in G1-S transition in the cell cycle. These alterations include deletions of negative regulatory elements (TP53, CDKN2, MTS2) and amplification of positive factors (MDM2, CDK4). In addition, there are loci on chromosomes 10 and 19q that seem to be involved in tumor progression.
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PMID:Molecular genetics of human glioma. 765 23

Recently the putative tumor suppressor gene p16INK4 was mapped to human chromosome 9p21, which is homologous to rat chromosome 5. Monosomy of rat chromosome 5 occurs with high frequency in rat kidney tumor-derived cell lines (ERC lines). Thus, we studied these lines in order to investigate the involvement of p15INK4B and p16INK4 in the genesis of this tumor type. p15INK4B and p16INK4 were found by Southern blot analysis to be codeleted in five of seven of these lines. This was confirmed by Northern blot analysis with a probe for the rat p15INK4B gene. In normal rat tissues, expression of p15INK4B was abundant in lung (2.5 and 2.0 kilobases), less abundant in testis (2.5, 2.0, 1.1, and 0.9 kilobases), barely detectable in liver (2.0 kilobases), and not detectable in neonatal kidney, adult kidney, brain, heart, or spleen. In the ERC lines, p15INK4B was expressed as a single 2.0-kilobase transcript observed only in those cell lines in which the gene was detected by Southern blot analysis. However, neither p15INK4B nor p16INK4 were deleted in 12 of 12 primary kidney tumors examined, suggesting that deletion of these genes is not directly involved in the process of renal tumor development but may be related to tumor progression or autonomous growth in vitro. A panel of rat kidney epithelial cell lines chemically transformed in vitro (TRKE lines) that had high-frequency monosomy 5 were also examined, but deletion of p15INK4B and p16INK4 was observed in only one of six of the TRKE lines. To our knowledge, this is the first reported investigation of these genes in rodent tumors and cell lines, and its data support the theory that alterations of genes located in the INF region of rat chromosome 5 may play a role in rodent cell transformation.
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PMID:Association of rat p15INK4B/p16INK4 deletions with monosomy 5 in kidney epithelial cell lines but not primary renal tumors. 771 60

P16INK4 is a cell cycle regulator that specifically binds to and inactivates cyclin-dependent kinase 4 (CDK4). Its encoding gene (p16/CDKN2) maps to chromosome 9p21, a region that undergoes frequent loss of heterozygosity in a variety of human tumors. We have analyzed the p16/CDKN2 gene and its expression in a series of primary glioma samples. Although homozygous deletion or mutation of the p16/CDKN2 gene was uncommon in this series and P16INK4 protein was detectable in all grade II tumors, it was present in only 50% of grade III and grade IV samples. Conversely, in some grade IV tumors that level of P16INK4 protein was elevated; in these cases, its target, CDK4, was amplified and overexpressed. These results suggest: (a) the involvement of P16INK4 in glioma progression; (b) that mechanisms other than mutation or deletion can down-regulate expression of the p16/CDKN2 gene; and (c) that the balance between CDK4 and its cognate inhibitor, P16INK4, may confer a cell growth advantage and facilitate tumor progression.
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PMID:Loss of P16INK4 expression is frequent in high grade gliomas. 772 64

We examined the genomic status of cyclin-dependent kinase-4 and -6 inhibitors, p16INK4,p15INK4B, and p18, in 40 primary lung cancers and 31 metastatic lung cancers. Alterations of the p16INK4 gene were detected in 6 (2 insertions and 4 homozygous deletions) of 22 metastatic non-small cell lung cancers (NSCLCs; 27%), but none were detected in 25 primary NSCLCs, 15 primary small cell lung cancers (SCLCs), or 9 metastatic SCLCs, indicating that mutation in the p16INK4 gene is a late event in NSCLC carcinogenesis. Although three intragenic mutations of the p15INK4B gene were detected in 25 primary NSCLCs (12%) and five homozygous deletions of the p15INK4B gene were detected in 22 NSCLCs (23%), no genetic alterations of the p15INK4B gene were found in primary and metastatic SCLCs. The p18 gene was wild type in these 71 lung cancers, except 1 metastatic NSCLC which showed loss of heterozygosity. We also examined alterations of these three genes and expression of p16INK4 in 21 human lung cancer cell lines. Alterations of the p16INK4 and p15INK4B genes were detected in 71% of the NSCLC cell lines (n = 14) and 50% of the NSCLC cell lines (n = 14), respectively, but there were none in the 7 SCLC cell lines studied. No p18 mutations were detected in these 21 cell lines. These results indicate that both p16INK4 and p15INK4B gene mutations are associated with tumor progression of a subset of NSCLC, but not of SCLC, and that p15INK4B mutations might also be an early event in the molecular pathogenesis of a subset of NSCLC.
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PMID:Mutations in the p16INK4/MTS1/CDKN2, p15INK4B/MTS2, and p18 genes in primary and metastatic lung cancer. 788 51

The gene encoding the cell-cycle regulatory protein p16, CDKN2, is localized on chromosome band 9p21. CDKN2 is frequently deleted or mutated in a variety of tumor cell lines, including pancreatic cancer cell lines and xenografts, as well as in some primary tumors. We examined 32 primary pancreatic adenocarcinomas for CDKN2 mutations and for loss of heterozygosity of 9p21 sequences to assess the role of CDKN2 in pancreatic carcinogenesis. Single-strand conformation variant analysis (SSCV) and direct sequencing of the variants revealed somatic CDKN2 mutations in 11 of 32 tumors (five frame-shift mutations, five nonsense mutations, and one missense mutation). One tumor appeared to be characterized by homozygous deletion of CDKN2. These results suggest that CDKN2 plays an important role during tumorigenesis or tumor progression in a significant proportion of pancreatic adenocarcinomas.
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PMID:Frequent mutations of CDKN2 in primary pancreatic adenocarcinomas. 858 35

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

We analyzed the p16INK4 status of 6 hepatocellular carcinoma (HCC) cell lines and 32 primary HCC tumors, including 9 early-stage tumors, to determine whether p16INK4 tumor-suppressor gene inactivation participates in hepatocarcinogenesis. p16INK4 was studied at its protein level through Western blotting, at its messenger RNA (mRNA) level through reverse-transcriptase polymerase chain reaction analysis (RT-PCR) and Northern blotting, and at its genomic level through Southern blotting and PCR-single-strand conformation polymorphism analysis. The p16 protein was absent from 3 of 6 cell lines (50%) and 11 of 32 primary tumors (34%), but present in noncancerous tissues, indicating that p16INK4 is involved in hepatocarcinogenesis. Furthermore, we suggest that the p16 protein loss may contribute to the following: (1) early-stage hepatocarcinogenesis, because it was observed in 22% of early stage tumors; and (2) tumor progression, because it occurred approximately twice as often in advanced rather than in early stage tumors (40%). It was striking that neither p16INK4 homozygous deletion and mutation nor loss of p16INK4 mRNA expression were observed in HCC cell lines and primary tumors, including those specimens from which the p16 protein was absent except the Li7HM cell line, in which p16INK4 mRNA was not detected. These results suggest that p16INK4 in HCC is inactivated predominantly by posttranscriptional regulation rather than by genomic aberrations and lack of transcription.
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PMID:Inactivation of p16INK4 in hepatocellular carcinoma. 878 27

An understanding of the biological significance of the multiple genetic alterations identified in clinical bladder cancers to the stepwise pathogenesis of the disease is evolving. Alterations in p53 and pRb, products of the chromosomes 17p13 TP53 and 13q14 RB tumor suppressor genes, occur in approximately 50% and approximately 33% of bladder cancers respectively, and are associated with later stage, higher grade disease. p53 and pRb alterations are also known to occur in early stage bladder carcinoma in situ where they are thought to represent a poor prognosis for tumor progression. Allelic loss of genes on 9p21 occurs in approximately 50% of bladder cancers, but whether the only critical gene in this region is the CDKN2/p16 cyclin/CDK inhibitor is at present uncertain. Amplification and/or overexpression of the oncogenes epidermal growth factor receptor and erbB2 are associated with later stage disease. Finally, recent findings generated using in vitro transformation systems with human uroepithelial cells provide strong evidence that loss of genes on 3p, which occurs in approximately 20% of bladder cancers, and/or gain of genes on 20q play an important role in blocking HUC cellular senescence. This latter phenotype should represent a critical step in oncogenesis, as cells that do not senesce can survive to accumulate the multiple genetic alterations associated with invasive and metastatic bladder cancers. Further understanding of the biochemical mechanisms underlying these genetic changes will provide the additional information needed to design better strategies for bladder cancer intervention and treatment.
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PMID:A molecular genetic model of human bladder cancer pathogenesis. 889 68

High frequency allelic loss of chromosome 9p21 has been reported in a number of human cancers, including those of the esophagus. The CDKN2 gene on chromosome 9p21 that encodes the p16 inhibitor of cyclinD/Cdk4 complexes is a target of allelic loss and inactivation in a variety of human cancers and cell lines. However, the roles of 9p21 allelic losses and CDKN2 mutations in human neoplastic progression in vivo remain controversial. We determined the prevalence of allelic loss at 9p21 and mutations in CDKN2 in esophageal adenocarcinomas and investigated the order in which they occurred relative to the development of aneuploidy and cancer during neoplastic progression. Aneuploid cell populations from 32 patients with Barrett's esophagus who had premalignant epithelium, cancer, or both, were purified by DNA content flow cytometric cell sorting and evaluated by polymerase chain reaction. Twenty-four of 32 informative patients (75%) had allelic loss at 9p21 in aneuploid cell populations. Premalignant epithelium was available for seven of the patients who had 9p21 allelic losses in cancer; allelic loss of 9p21 was detected before cancer in all seven (100%). Allelic loss of 9p21 preceded the development of aneuploidy in 13 of 15 patients (87%) who had aneuploid cell populations detected in premalignant epithelium, and the two events were detected simultaneously in the remaining two patients. Five of 22 aneuploid populations (23%) with 9p21 loss had somatic mutations in the remaining CDKN2 allele. The same mutations and 9p21 allelic losses were also found in the corresponding diploid cells from premalignant epithelium in all three cases that were evaluable. However, there was no evidence for mutation or homozygous deletion of p16 in the other 17 patients with 9p21 allelic loss. Our results indicate that 9p21 allelic losses and CDKN2 mutations develop as early lesions in diploid cells before aneuploidy and cancer during neoplastic progression in Barrett's esophagus.
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PMID:Allelic loss of 9p21 and mutation of the CDKN2/p16 gene develop as early lesions during neoplastic progression in Barrett's esophagus. 893 32


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