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:Q86TM3 (cage)
29,987 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The INK4a gene, one of the most frequently disrupted tumor suppressor loci in human cancer, encodes two unrelated proteins, p16INK4a and p19ARF, each of which is capable of inducing cell cycle arrest. Splicing of alternative first exons (1 alpha vs. 1 beta) to a common second exon within INK4a generates mRNAs in which exon 2 sequences are translated in two different reading frames. One of the products, the cyclin D-dependent kinase inhibitor p16INK4a, is functionally inactivated by mutations or deletions in a wide variety of cancers. However, because many such mutations reside in exon 2, they also affect the alternative reading frame (ARF) protein. To determine whether such mutations disrupt p19ARF function, we introduced naturally occurring missense mutations into mouse INK4a exon 2 sequences and tested mutant p16INK4a and p19ARF proteins for their ability to inhibit cell cycle progression. Six p19ARF point mutants remained fully active in mediating cell cycle arrest in NIH 3T3 fibroblasts, whereas two of the corresponding mutations within p16INK4a resulted in complete loss of activity. Analysis of p19ARF deletion mutants indicated that the unique aminoterminal domain encoded by exon 1 beta was both necessary and sufficient for inducing G1 arrest. Therefore, cancer-associated mutations within exon 2 of the INK4a gene specifically target p16INK4a, and not p19ARF, for inactivation.
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PMID:Cancer-associated mutations at the INK4a locus cancel cell cycle arrest by p16INK4a but not by the alternative reading frame protein p19ARF. 901 42

The tumour suppressor p16 is a member of the INK4 family of inhibi tors of the cyclin D-dependent kinases, CDK4 and CDK6, that are involved in the key growth control pathway of the eukaryotic cell cycle. The 156 amino acid residue protein is composed of four ankyrin repeats (a helix-turn-helix motif) that stack linearly as two four-helix bundles resulting in a non-globular, elongated molecule. The thermodynamic and kinetic properties of the folding of p16 are unusual. The protein has a very low free energy of unfolding, Delta GH-2O/D-N, of 3.1 kcal mol-1 at 25 degreesC. The rate-determining transition state of folding/unfolding is very compact (89% as compact as the native state). The other unusual feature is the very rapid rate of unfolding in the absence of denaturant of 0.8 s-1 at 25 degreesC. Thus, p16 has both thermodynamic and kinetic instability. These features may be essential for the regulatory function of the INK4 proteins and of other ankyrin-repeat-containing proteins that mediate a wide range of protein-protein interactions. The mechanisms of inactivation of p16 by eight cancer-associated mutations were dissected using a systematic method designed to probe the integrity of the secondary structure and the global fold. The structure and folding of p16 appear to be highly vulnerable to single point mutations, probably as a result of the protein's low stability. This vulnerability provides one explanation for the striking frequency of p16 mutations in tumours and in immortalised cell lines.
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PMID:Stability and folding of the tumour suppressor protein p16. 991 18

Promoter hypermethylation is an important means for the transcriptional repression of a number of cancer-associated genes. However, the underlying mechanism of this aberration in cancer remains unclear. Here, we examined 5' CpG island methylation status and expression of the p14(ARF), p16(INK4a) and RASSF1A tumor suppressor genes, and investigated the relationship of these factors with the mRNA expression of DNA methyltransferases (DNMTs) and/or methyl-CpG-binding proteins (MBPs) in 30 lung cancer cell lines including 12 small cell lung cancers (SCLCs) and 18 non-small cell lung cancers (NSCLCs). When beta-actin was used as an internal control, the mRNA expression of three DNMTs (DNMT1, DNMT3A, and DNMT3B) and five MBPs (MBD1, MBD2, MBD3, MBD4, and MeCP2) was upregulated in SCLC, while only that of DNMT1, DNMT3B and MBD3 was upregulated in NSCLC, compared with normal lung tissues. However, when normalized using proliferating cell nuclear antigen (PCNA) as an internal control, these differences disappeared or diminished; there was even a significant reduction in the expression ratios of DNMT1, MBD2 and MeCP2 in SCLC and DNMT1, MBD2 and MBD4 in NSCLC. Furthermore, although significant correlations between PCNA expression and mRNA expression levels of the three DNMTs and four of the MBPs (excluding MeCP2) were observed, there was no obvious correlation between promoter hypermethylation of these tumor suppressor genes and the expression level of any of the DNMTs or MBPs. Our results suggest that upregulation of DNMTs and MBPs probably reflects an increased cell proliferation in human lung cancers and that there are likely to exist gene-specific mechanisms for epigenetic gene silencing.
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PMID:The expression of DNA methyltransferases and methyl-CpG-binding proteins is not associated with the methylation status of p14(ARF), p16(INK4a) and RASSF1A in human lung cancer cell lines. 1210 20

The ANK repeat is a ubiquitous 33-residue motif that adopts a beta hairpin helix-loop-helix fold. Multiple tandem repeats stack in a linear manner to produce an elongated structure that is stabilized predominantly by short-range interactions between residues close in sequence. The tumor suppressor p16(INK4) consists of four repeats and represents the minimal ANK folding unit. We found from Phi value analysis that p16 unfolded sequentially. The two N-terminal ANK repeats, which are distorted from the canonical ANK structure in all INK4 proteins and which are important for functional specificity, were mainly unstructured in the rate-limiting transition state for folding/unfolding, while the two C-terminal repeats were fully formed. A sequential unfolding mechanism could have implications for the cellular fate of wild-type and cancer-associated mutant p16 proteins.
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PMID:Sequential unfolding of ankyrin repeats in tumor suppressor p16. 1251 41

Cells expressing the neuronal stem cell marker Nestin are present in the human pancreas but the biological role of these cells has yet to be resolved. We report here the establishment with the catalytic subunit of human telomerase (hTERT) of a line of normal human cells representing this cell type. Primary human cells derived from the ducts of the pancreas were transduced with an hTERT cDNA. The infected cells became positive for telomerase, failed to senesce, and were still proliferating after more than 150 doublings. The immortalized cells were positive for the expression of Nestin (at both the mRNA and protein levels) and were found to be free of cancer-associated changes: diploid and expressing wild type p16(INK4a), p53, and K-Ras. An established line of normal human cells representing this cell type should be of great value to help define the biological properties of this novel cell type.
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PMID:Immortalization with telomerase of the Nestin-positive cells of the human pancreas. 1258 17

Short peptides derived from p14ARF and Hdm2 (14 and 15 amino acids in length, respectively), two cancer associated proteins, have been found to co-assemble into amyloid-like structures. Larger protein domains containing these peptide segments interact in cells and also undergo a disorder-to-order transition upon binding in vitro. In contrast to the association of beta-strand assemblies with amyloid diseases, the system described herein utilizes the formation of binary, extended beta-strands as a novel mechanism of biomolecular assembly. The beta-strand-containing fibrils formed from these peptides may allow the directed assembly of decorated fibrils with applications as biological nanostructures.
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PMID:Peptides derived from two dynamically disordered proteins self-assemble into amyloid-like fibrils. 1263 Aug 60

There is increasing evidence for the role of epigenetic gene silencing in superficial bladder cancer. The aim of the current study was to investigate the prognostic value of epigenetic alterations in patients with non-muscle invasive bladder carcinoma. We checked the methylation status of 20 cancer associated genes (p14ARF, p16 CDKN2A, STAT-1, SOCS-1, DR-3, DR-6, PIG-7, BCL-2, H-TERT, BAX, EDNRB, DAPK, RASSF-1A, FADD, TMS-1, E-Cadherin, ICAM-1, TIMP-3, MLH-1, COX-2) for DNA methylation. We analysed microdissected tumour samples from 105 consecutive patients with primary non-muscle invasive bladder carcinoma. Quantitative methylation analysis of CpG sites in the promoter region of the genes was performed with methylation sensitive quantitative real time PCR ('Methylight'). Univariate analysis for association with tumour recurrence was carried out with the Kaplan-Meier analysis and the log-rank test. Follow-up data were available in 95/105 patients (91.4%). A tumour recurrence was observed in 26 patients (27.3%). We could identify six genes (SOCS-1, STAT-1, BCL-2, DAPK, TIMP-3, E-Cadherin), where methylation was associated with tumour recurrence. In Kaplan-Meier analysis, TIMP-3 showed a significant association with recurrence free survival. Methylation of TIMP-3 predicted prolonged disease free interval. In this study, we report a comprehensive analysis on prognostic relevance of gene methylation in non-muscle invasive bladder cancer. We identified one gene (TIMP-3) where methylation was associated with a more favourable outcome. Our data strongly support the usefulness of gene methylation as a prognostic marker in patients with non-muscle invasive bladder cancer.
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PMID:Prognostic relevance of methylation markers in patients with non-muscle invasive bladder carcinoma. 1624 28

p14ARF (ARF) and topoisomerase I play central roles in cancer and have recently been shown to interact. The interaction activates topoisomerase I, an important target for camptothecin-like chemotherapeutic drugs, but the regulation of the interaction is poorly understood. We have used the H358 and H23 lung cancer cell lines and purified recombinant human topoisomerase I to demonstrate that the ARF/topoisomerase I interaction is regulated by topoisomerase I serine phosphorylation, a modification that regulates topoisomerase I activity. Both cell lines express wild-type ARF and topoisomerase I proteins at equivalent levels, but H23 topoisomerase I, unlike that of H358 cells, is largely devoid of serine phosphorylation, has low activity, and complexes poorly with ARF. The ability of H23 topoisomerase I to complex with ARF can be restored by treatment with the serine kinase, casein kinase II. Consistent with these observations, we show that the response of H23 cells to camptothecin treatment is unaffected by changes in intracellular levels of ARF. However, in H358 and PC-3 cells, which express a serine phosphorylated topoisomerase I that complexes with ARF, ectopic overexpression of ARF causes sensitization to camptothecin, and siRNA-mediated down-regulation of endogenous ARF causes desensitization to camptothecin. These biological responses correlate with increased and decreased levels, respectively, of ARF/topoisomerase I complex and DNA-bound topoisomerase I. Thus, ARF is a serine phosphorylation-dependent coregulator of topoisomerase I in vivo, and it regulates cellular sensitivity to camptothecin by interacting with topoisomerase I. Certain cancer associated defects affecting ARF/topoisomerase I complex formation could contribute to cellular resistance to camptothecin.
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PMID:Serine phosphorylation-dependent coregulation of topoisomerase I by the p14ARF tumor suppressor. 1800 78

Epigenetic events have emerged as key mechanisms in the regulation of critical biological processes and in the development of a wide variety of human malignancies, including gastric cancer (GC), however precise gene targets of aberrant DNA methylation in GC remain largely unknown. Here, we have combined pyrosequencing-based quantitative analysis of DNA methylation in 98 GC cases and 64 controls nested within the European Prospective Investigation into Cancer and Nutrition (EPIC) cohort and in cancer tissue and non-tumorigenic adjacent tissue of an independent series of GC samples. A panel of 10 cancer-associated genes (CHRNA3, DOK1, MGMT, RASSF1A, p14ARF, CDH1, MLH1, ALDH2, GNMT and MTHFR) and LINE-1 repetitive elements were included in the analysis and their association with clinicopathological characteristics (sex, age at diagnosis, anatomical sub-site, histological sub-type) was examined. Three out of the 10 genes analyzed exhibited a marked hypermethylation, whereas two genes (ALDH2 and MTHFR) showed significant hypomethylation, in gastric tumors. Among differentially methylated genes, we identified new genes (CHRNA3 and DOK1) as targets of aberrant hypermethylation in GC, suggesting that epigenetic deregulation of these genes and their corresponding cellular pathways may promote the development and progression of GC. We also found that global demethylation of tumor cell genomes occurs in GC, consistent with the notion that abnormal hypermethylation of specific genes occurs concomitantly with genome-wide hypomethylation. Age and gender had no significant influence on methylation states, but an association was observed between LINE-1 and MLH1 methylation levels with histological sub-type and anatomical sub-site. This study identifies aberrant methylation patters in specific genes in GC thus providing information that could be exploited as novel biomarkers in clinics and molecular epidemiology of GC.
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PMID:Aberrant DNA methylation of cancer-associated genes in gastric cancer in the European Prospective Investigation into Cancer and Nutrition (EPIC-EURGAST). 2255 Jul 61

Oropharyngeal squamous cell carcinomas (OPSCC) that are associated with human papilloma virus (HPV) infection carry a more favorable prognosis than those that are HPV-negative. However, it remains unclear which biomarker(s) can reliably determine which OPSCC specimens are truly driven by HPV infection. In this study, we analyzed 199 fresh-frozen OPSCC specimens for HPV DNA, viral load, RNA expression patterns typical for cervical carcinomas (CxCaRNA(+)), and the HPV-targeted tumor suppressor protein p16(INK4a) as markers for HPV infection. In this set of specimens, there was a 49% prevalence of DNA for the cancer-associated HPV type 16 (HPV(+)). However, there was only a 16% prevalence of high viral load and only a 20% prevalence of CxCaRNA(+), a marker of HPV16 carcinogenic activity. Among the CxCaRNA(+) tumors, 78% of the specimens exhibited overexpression of p16(INK4a), which also occurred in 14% of the HPV-negative tumors. Using a multivariate survival analysis with HPV negativity as the reference group, CxCaRNA(+) as a single marker conferred the lowest risk of death [HR = 0.28, 95% confidence interval (CI), 0.13-0.61] from oropharyngeal cancer, closely followed by high viral load (HR = 0.32, 95% CI, 0.14-0.73). In contrast, a weaker inverse association was found for OPSCC that were HPV(+) and p16(INK4a) high (HR = 0.55, 95% CI, 0.29-1.08). In summary, our findings argued that viral load or RNA pattern analysis is better suited than p16(INK4a) expression to identify HPV16-driven tumors in OPSCC patient populations.
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PMID:Viral RNA patterns and high viral load reliably define oropharynx carcinomas with active HPV16 involvement. 2299 3


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