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Query: UNIPROT:Q86TM3 (cage)
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Telomeres are nucleoprotein complexes that cap the end of eukaryotic chromosomes. They are essential for the functions and the stability of the genomes. In the absence of telomerase, the enzyme that adds telomeric DNA repeats to chromosome ends, telomeres shorten with cell division, a process thought to contribute to cell senescence. Reciprocally, telomere stabilization in immortalized cells, that usually appears concomitant with detection of telomerase activity, suggests that telomerase is essential for unlimited cell proliferation. Sequential modifications in the function of telomeres play antagonistic functions as far as tumorigenesis is concerned. Telomere dysfunction is thought to promote genome instability at initial stages, favoring the emergence of cancer-associated chromosomal abnormalities; reestablishment of telomere maintenance is expected afterwards if efficient cell cycling is to occur.
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PMID:[The opposite roles of telomerase during initiation and progression of cancers]. 1536 58

Hypomethylation of some portions of the genome and hypermethylation of others are very frequent attributes of human cancer. We previously showed that cancer-associated DNA hypomethylation often involves satellite 2 (Sat2), the main DNA component of the large juxtacentromeric (centromere-adjacent) heterochromatin of chromosome 1. In this study, we compared methylation of Sat2 and centromeric satellite DNA (Satalpha) as well as overall genomic methylation in 41 breast adenocarcinomas of known tumor grade and stage, 16 non-neoplastic breast tissues (mostly fibroadenomas), and a variety of normal somatic tissue controls. The cancers were significantly hypomethylated at Sat2 relative to the fibroadenomas or normal somatic tissues and at Satalpha relative to the normal somatic tissues. However, unlike Sat2, Satalpha did not display significant differences in methylation between the cancers and the non-neoplastic breast tissues. Therefore, hypomethylation at Sat2 is a much better marker of breast cancer than is Satalpha hypomethylation. There was a significant association of Sat2 hypomethylation with global DNA hypomethylation in the cancers but not with tumor grade, stage, axillary lymph node involvement, or hormone receptor status. Extensive cancer-associated hypomethylation of juxtacentromeric satellite DNA and global DNA hypomethylation were common even in grade-1 or stage-1 carcinomas, which suggests that demethylation of the genome is an early event in breast carcinogenesis.
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PMID:DNA hypomethylation is prevalent even in low-grade breast cancers. 1553 37

Telomeres are nucleoprotein complexes that cap the end of eukaryotic chromosomes. They are essential for the functions and the stability of the genomes. There is now compelling evidences that telomerase, the enzyme that adds telomeric DNA repeats to chromosome end, is an important player in oncogenesis. The absence of telomerase in somatic tissues is thought to promote genome instability at initial stages of oncogenesis, favoring the emergence of cancer-associated chromosomal abnormalities \; restablishment of telomerase activity is expected afterwards if long term cell cycling is to occur. In addition to telomerase, various factors control the structure and function of telomeres, suggesting that additional telomeric components play important roles during oncogenesis.
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PMID:[Telomere and cancer: what's more at the end?]. 1563 18

We have previously found with the microcell hybrid-based "elimination test" that human chromosome 3 transferred into murine or human tumor cells regularly lost certain 3p regions during tumor growth in SCID mice. The most common eliminated region, CER1, is approximately 2.4 Mb at 3p21.3. CER1 breakpoints were clustered in approximately 200-kb regions at both telomeric and centromeric borders. We have also shown, earlier, that tumor-related deletions often coincide with human/mouse synteny breakpoints on 3p12-p22. Here we describe the results of a comparative genomic analysis on the CER1 region in Caenorhabditis elegans, Drosophila melanogaster, Fugu rubripes, Gallus gallus, Mus musculus, Rattus norvegicus, and Canis familiaris. First, four independent synteny breaks were found within the CER1 telomeric breakpoint cluster region, comparing human, dog, and chicken genomes, and two independent synteny breaks within the CER1 centromeric breakpoint cluster region, comparing human, mouse, and chicken genomes, suggesting a nonrandom involvement of tumor breakpoint regions in chromosome evolution. Second, both CER1 breakpoint cluster regions show recent tandem duplications (seven Zn finger protein family genes at the telomeric and eight chemokine receptor genes at the centromeric side). Finally, all genes from these regions underwent horizontal evolution in mammals, with formation of new genes and expansion of gene families, which were displayed in the human genome as tandem gene duplications and pseudogene insertions. In contrast the CER1 middle region contained evolutionarily well-conserved solitary genes and a minimal amount of retroposed genes. The coincidence of evolutionary plasticity with CER1 breakpoints may suggest that regional structural instability is expressed in both evolutionary and cancer-associated chromosome rearrangements.
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PMID:Evolutionarily plastic regions at human 3p21.3 coincide with tumor breakpoints identified by the "elimination test". 1591 51

Repetitive elements represent a large portion of the human genome and contain much of the CpG methylation found in normal human postnatal somatic tissues. Loss of DNA methylation in these sequences might account for most of the global hypomethylation that characterizes a large percentage of human cancers that have been studied. There is widespread interest in correlating the genomic 5-methylcytosine content with clinical outcome, dietary history, lifestyle, etc. However, a high-throughput, accurate and easily accessible technique that can be applied even to paraffin-embedded tissue DNA is not yet available. Here, we report the development of quantitative MethyLight assays to determine the levels of methylated and unmethylated repeats, namely, Alu and LINE-1 sequences and the centromeric satellite alpha (Satalpha) and juxtacentromeric satellite 2 (Sat2) DNA sequences. Methylation levels of Alu, Sat2 and LINE-1 repeats were significantly associated with global DNA methylation, as measured by high performance liquid chromatography, and the combined measurements of Alu and Sat2 methylation were highly correlative with global DNA methylation measurements. These MethyLight assays rely only on real-time PCR and provide surrogate markers for global DNA methylation analysis. We also describe a novel design strategy for the development of methylation-independent MethyLight control reactions based on Alu sequences depleted of CpG dinucleotides by evolutionary deamination on one strand. We show that one such Alu-based reaction provides a greatly improved detection of DNA for normalization in MethyLight applications and is less susceptible to normalization errors caused by cancer-associated aneuploidy and copy number changes.
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PMID:Analysis of repetitive element DNA methylation by MethyLight. 1632 63

Germ line mutations in BRCA1 and BRCA2 account for a large proportion of inherited breast and ovarian cancer. Both genes are involved in DNA repair by homologous recombination and are thought to play a vital role in maintaining genomic stability. A major drawback for long-term functional studies of BRCA in general and BRCA2 in particular has been a lack of representative human breast epithelial cell lines. In the present study, we have established three cell lines from two patients harboring the 999del5 germ line founder mutation in the BRCA2 gene. Primary cultures were established from cellular outgrowth of explanted tissue and subsequently transfected with a retroviral construct containing the HPV-16 E6 and E7 oncogenes. Paired cancer-derived and normal-derived cell lines were established from one patient referred to as BRCA2-999del5-2T and BRCA2-999del5-2N, respectively. In addition, one cell line was derived from cancer-associated normal tissue from another patient referred to as BRCA2-999del5-1N. All three cell lines showed characteristics of breast epithelial cells as evidenced by expression of breast epithelial specific cytokeratins. Cytogenetic analysis showed marked chromosomal instability with tetraploidy and frequent telomeric associations. In conclusion, we have established three breast epithelial cell lines from two patients carrying the BRCA2 Icelandic 999del5 founder mutation. These cell lines form the basis for further studies on carcinogenesis and malignant progression of breast cancer on a defined genetic background.
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PMID:Establishment of three human breast epithelial cell lines derived from carriers of the 999del5 BRCA2 Icelandic founder mutation. 1644 23

The flamenco (flam) locus, located at 20A1-3 in the centromeric heterochromatin of the Drosophila melanogaster X chromosome, is a major regulator of the gypsy/mdg4 endogenous retrovirus. In restrictive strains, functional flam alleles maintain gypsy proviruses in a repressed state. By contrast, in permissive strains, proviral amplification results from infection of the female germ line and subsequent insertions into the chromosomes of the progeny. A restrictive/permissive polymorphism prevails in natural and laboratory populations. This polymorphism was assumed to be maintained by the interplay of opposite selective forces; on one hand, the increase of genetic load caused by proviral insertions would favor restrictive flam alleles because they make flies resistant to these gypsy replicative transpositions and, on the other, a hypothetical resistance cost would select against such alleles in the absence of the retrovirus. However, the population cage data presented in this paper do not fit with this simple resistance cost hypothesis because restrictive alleles were not eliminated in the absence of functional gypsy proviruses; on the contrary, using 2 independent flam allelic pairs, the restrictive frequency rose to about 90% in every experimental population, whatever the pair of alleles and the allelic proportions in the initial inoculum. These data suggest that the flam polymorphism is maintained by some strong balancing selection, which would act either on flam itself, independently of the deleterious effect of gypsy, or on a hypothetical flanking gene, in linkage disequilibrium with flam. Alternatively, restrictive flam alleles might also be resistant to some other retroelements that would be still present in the cage populations, causing a positive selection for these alleles. Whatever selective forces that maintain high levels of restrictive alleles independently of gypsy, this unknown mechanism can set up an interesting kind of antiviral innate immunity, at the population level.
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PMID:Restrictive flamenco alleles are maintained in Drosophila melanogaster population cages, despite the absence of their endogenous gypsy retroviral targets. 1711 9

The dynamic behavior of four-locus gametic frequency distributions was studied in five replicate cage populations of Drosophila melanogaster for up to 50 generations. The joint frequency distributions were resolved into gene frequencies and various disequilibrium measures. In addition, F statistics for marginal single-locus genotypic frequency distributions were followed through time. The gene frequency, disequilibrium and F statistics were obtained for four chromosome 3 enzyme marker loci [isocitrate dehydrogenase (3-27.1), esterase-6 (3-36.8), phosphoglucomutase (3-43.4) and esterase-C (3-49.0)]. The initial structure of the experimental populations featured random mating proportions, and two complementary gametic types with respect to the marker loci, thus assuring complete pairwise linkage disequilibrium among the markers.--The experimental results indicate: (1) the between-replicate variance in gene frequency varied substantially among loci, with isocitrate dehydrogenase showing the greatest between-replicate variance, and esterase-C the least. (2) The F statistics initially were strongly negative but decayed to the neighborhood of zero for all marker loci except esterase-C. The rate at which the F statistics approached zero varied among the marker loci, indicating substantial differences in the distribution of selective effects along the chromosome. The centromeric region, marked by esterase-C, shows the strongest selective effects. (3) The rate of decay of linkage disequilibrium was much faster than expected for pairs of neutral loci, averaging 1.82 times the neutral rate over all replicates and pairs of loci. This acceleration, which was observed for all six pairwise combinations of loci, was interpreted as resulting from the interaction between selection and recombination. Our experimental results are consistent with many investigations of linkage disequilibrium in natural populations of Drosophila melanogaster that show little or no disequilibrium among enzyme loci. (4) A fortuitous contamination of two cages revealed an apparent regulatory interaction between the migrant and nonmigrant chromosomes at the esterase-C locus. The migrant chromosomes were very rapidly absorbed into the recipient populations, despite this interaction. This result suggests that the dynamics of migration in populations may be phenomenologically richer than anticipated by simple theory.
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PMID:Dynamics of Correlated Genetic Systems. V. Rates of Decay of Linkage Disequilibria in Experimental Populations of DROSOPHILA MELANOGASTER. 1724 94

Recent studies based on genome-wide association, linkage, and admixture scan analysis have reported associations of various genetic variants in 8q24 with susceptibility to breast, prostate, and colorectal cancer. This locus lies within a 1.18-Mb region that contains no known genes but is bounded at its centromeric end by FAM84B and at its telomeric end by c-MYC, two candidate cancer susceptibility genes. To investigate the associations of specific loci within 8q24 with specific cancers, we genotyped the nine previously reported cancer-associated single-nucleotide polymorphisms across the region in four case-control sets of prostate (1854 case subjects and 1894 control subjects), breast (2270 case subjects and 2280 control subjects), colorectal (2299 case subjects and 2284 control subjects), and ovarian (1975 case subjects and 3411 control subjects) cancer. Five different haplotype blocks within this gene desert were specifically associated with risks of different cancers. One block was solely associated with risk of breast cancer, three others were associated solely with the risk of prostate cancer, and a fifth was associated with the risk of prostate, colorectal, and ovarian cancer, but not breast cancer. We conclude that there are at least five separate functional variants in this region.
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PMID:Multiple loci with different cancer specificities within the 8q24 gene desert. 1857 46

Using fluorescence in situ hybridization (FISH) analysis, we examined the replication mode of the centromere region (homologous counterpart) and the aneuploidy level of chromosome 17 in the interphase nuclei of phytohaemagglutinin (PHA)-stimulated peripheral blood lymphocytes from (1) patients with hepatocellular carcinoma (HCC); (2) patients with liver cirrhosis (LC) due to hepatitis C viral infection who are individuals at a higher increased risk for HCC; and (3) healthy control participants. We also compared the allelic-replication asynchrony and aneuploidy frequencies with serum alpha-fetoprotein (AFP) levels. We found a significant increase in centromeric replication asynchrony accompanied by a high frequency of aneuploidy in lymphocytes of HCC patients compared with those of LC patients and healthy control participants. These changes are similar to those previously observed in other types of malignancy (hematological, ovarian, prostate, and breast cancer). The cytogenetic alterations of aneuploidy and strong asynchronous replication displayed in the lymphocytes of HCC patients arose from malignancy, as they were associated neither with an increased risk for cancer nor with an infection. The cytogenetic cancer-associated markers observed in patients' lymphocytes appeared to be superior to serum AFP, the marker currently used for HCC. Thus, the cytogenetic cancer-associated markers may be potentially useful in noninvasive cancer detection.
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PMID:Asynchronous DNA replication and aneuploidy in lymphocytes of hepatocellular carcinoma patients. 2318 62

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