UNIPROT:Q86TM3 - FACTA Search

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

The nuclear lamins are directed from the cytoplasm to chromosomes as part of the maturation pathway of the interphase nucleoskeleton. In mitosis, the three polypeptides lamin A, B and C were found in the cytoplasm from prophase until anaphase and shifted to chromosomal surfaces at telophase (Ely, D'Arcy and Jost, 1978; Gerace, Blum and Blobel, 1978). We show here that early events in nucleoskeleton formation could be regulated by extracellular pH. When exponentially growing tissue culture cells and cells arrested in mitosis were exposed to different extracellular pH values, three patterns of distribution of lamins were observed in mitotic cells: exclusively cytoplasmic distribution of mitotic lamins at low pH (6.8 to 7.3); a premature association of a lamin subfraction with metaphase chromosomes at intermediate pH 7.5; a more prominent relocation of lamins onto chromosomes in metaphase and in disorganized metaphase at pH 8.0. Reassembly of lamins occurred at telomeric ends of mitotic chromosomes followed by a lateral fusion to form a nuclear cage. Using immunogold localization, we show that pH-induced, premature, partial deposition of lamins onto condensed chromosomes may occur prior to the formation of the bilamellar nuclear envelope. These results suggest that the pH-induced redistribution of lamins acts to trigger early events of mitosis to interphase transition.
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PMID:Redistribution of nuclear lamins in mitotic cells. 294 91

We have constructed a high-resolution cytogenetic map of human chromosome 2 with 434 newly isolated cosmid markers by means of direct R-banding fluorescence in situ hybridization. Two markers were mapped to the centromeric region, 173 to the short arm, and 259 to the long arm. The clones were evenly distributed along the entire chromosome, although a tendency toward clustering in R-positive bands was observed. The mapped cosmids provide useful landmarks for construction of a contig map and for positional cloning of cancer-associated genes, as well as genes responsible for hereditary diseases.
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PMID:A high-resolution cytogenetic map of human chromosome 2: localization of 434 cosmid markers by direct R-banding fluorescence in situ hybridization. 795 48

As is common with a newly discovered cancer-associated gene/protein, there is a lag between the elucidation of its cellular and molecular biology and appropriate therapeutic intervention. Telomerase represents an interesting and promising anticancer drug target but poses a particular drug discovery challenge. It is unclear at present what is the optimum means of targeting this complex ribonucleoprotein and associated telomeric DNA and binding proteins: various strategies are actively being explored. Some recent data (e.g. 2-5A antisense against telomeric RNA, targeting TRF2, introduction of dominant-negative hTERT into cells) has raised doubts over the previously presumption of a requirement for prolonged enzyme inhibition with gradual telomere erosion, especially in tumour cells with relatively short telomeres. Highly potent and selective in vivo inhibitors are required to validate the target and address these critical issues.
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PMID:Telomerase as an anti-cancer target: current status and future prospects. 1062 26

There exists cancer-associated immunosuppression, and the generation of lymphokine-activated killer (LAK) cells is impaired in patients with advanced cancer. Telomerase has been reported to be upregulated in the activation of lymphocytes to proliferate against immune stimulation as well as in the malignant transformation of immortal cancer cells. We attempted to clarify the involvement of telomerase in the impairment of LAK cell generation in patients with advanced cancer. LAK cells were generated by stimulation with interleukin (IL)-2 and immobilized anti-CD3 antibody (IL-2/CD3 system) from peripheral blood mononuclear cells of healthy volunteers (he-LAK) or patients with advanced cancer (ca-LAK), and proliferative potential of LAK cells was evaluated on the basis of population doubling level (PDL). Telomere length and telomerase activity of LAK cells were measured by the hybridization with oligonucleotide (TTAGGG)4 and by the telomeric repeat amplification protocol (TRAP) assay, respectively. Effects on telomerase activity in LAK cells of serum from cancer patients, transforming growth factor (TGF)-beta, and IL-10 were also examined. The lifespan of ca-LAK (15.2 +/- 5.1 PDLs) was significantly shorter than that of he-LAK (22.6 +/- 8.3 PDLs) (p = 0.0358). There were no significant differences between he- and ca-LAK in telomere length before IL-2/CD3 stimulation and maximal telomerase activity induced. The telomerase activity induced in ca-LAK failed to elongate sufficiently the telomeric ends (-35.2 +/- 46.2 bp) compared with that in he-LAK (16.8 +/- 41.5 bp) (p = 0.0448). The telomerase activity was initially detectable on day 2 in all he-LAK, whereas 8 (61.5%) of 13 ca-LAK expressed telomerase activity on day 3 or later following the stimulation, showing a significant retardation of telomerase expression (p = 0.0116). The addition to the LAK cell generation system of serum from cancer patients, as well as IL-10, but not transforming growth factor (TGF)-beta, suppressed the telomerase activity. This serum-induced suppression of telomerase activity in LAK cells was abrogated with the addition of anti-IL-10 antibody but not with anti-TGF-beta antibody. It is suggested that the dysregulation of telomerase activity and expression exists in LAK cells of cancer patients, resulting in the impairment of LAK cell generation in patients with advanced cancer. Serum IL-10 may be involved in the impairment of LAK cell generation by the suppression of telomerase activity of lymphocytes in vivo. Thus, the dysregulation mechanism of telomerase activity and expression in lymphocytes of cancer patients may be attributable, in part, to cancer-associated immunosuppression.
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PMID:Dysregulation of telomerase activity and expression in lymphokine-activated killer cells from advanced cancer patients: possible involvement in cancer-associated immunosuppression mechanism. 1129 96

Inadequate attention has been paid to the frequent and often extensive cancer-associated DNA hypomethylation. This hypomethylation usually includes undermethylation of certain DNA repeats in constitutive heterochromatin, although it is not limited to such sequences. Many cancers display an overall deficiency in the levels of genomic 5-methylcytosine compared to a variety of normal postnatal somatic tissues. The immunodeficiency, centromeric region instability, facial anomalies (ICF) syndrome, a rare recessive DNA methyltransferase deficiency disease, results in a small decrease in the extent of global genomic methylation. In ICF, DNA hypomethylation is targeted to the satellite DNA in juxtacentromeric (centromere-adjacent) heterochromatin of chromosomes 1 and 16 (1qh and 16qh), which are prone to rearrangements in ICF lymphoid cells. Also, 1qh and 16qh DNA sequences frequently are hypomethylated in human cancers and rearrangements in their vicinity are overrepresented in cancers. These often lead to chromosome arm imbalances and gene dosage imbalances that could participate in carcinogenesis. Studies of ICF cells suggest that hypomethylation in the normally highly methylated 1qh and 16qh regions predisposes to heterochromatin decondensation in these regions, which in turn leads to elevated levels of rearrangements. Studies of ICF cells also suggest that some of these rearrangements, namely multiradial chromosomes with multiple arms joined in the pericentromeric region, may be unstable intermediates in formation of more stable pericentromeric rearrangements in cancer. Microarray gene expression analysis on ICF and normal lymphoblastoid cell lines suggests that this hypomethylation also may affect gene expression elsewhere in the genome.
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PMID:DNA hypomethylation, cancer, the immunodeficiency, centromeric region instability, facial anomalies syndrome and chromosomal rearrangements. 1216 5

We reported previously that spontaneous activity in the home cage is highly variable among the Mishima battery of mouse strains. In that study, NJL and KJR were found to be hyperactive strains in contrast to BLG2, which showed one of the lowest activity levels. To unravel the genetic loci involved in this behavioral phenotype, we conducted QTL analyses on backcross populations of crosses between either NJL or KJR and BLG2 strains. In the backcross of NJL to BLG2, no single locus was associated with increased spontaneous activity. In the backcross of KJR to BLG2, linkage analysis showed that a locus on the most telomeric region of Chromosome (Chr) 3 was involved in the spontaneous activity, thus named Loco1. Further linkage analysis using selected progeny carrying the allele from KJR at the Loco1 locus suggested the presence of another locus, Loco2, on Chr 17. An analysis showed that Loco1 and Loco2 interacted epistatically.
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PMID:QTL analyses of spontaneous activity by using mouse strains from Mishima battery. 1222 5

A multistep model of carcinogenesis has recently been proposed for pancreatic ductal adenocarcinomas. In this model, noninvasive precursor lesions in the pancreatic ductules accumulate genetic alterations in cancer-associated genes eventually leading to the development of an invasive cancer. The nomenclature for these precursor lesions has been standardized as pancreatic intraepithelial neoplasia or PanIN. Despite the substantial advances made in understanding the biology of invasive pancreatic adenocarcinomas, little is known about the initiating genetic events in the pancreatic ductal epithelium that facilitates its progression to cancer. Telomeres are distinctive structures at the ends of chromosomes that protect against chromosomal breakage-fusion-bridge cycles in dividing cells. Critically shortened telomeres can cause chromosomal instability, a sine qua non of most human epithelial cancers. Although evidence for telomeric dysfunction has been demonstrated in invasive pancreatic cancer, the onset of this phenomenon has not been elucidated in the context of noninvasive precursor lesions. We used a recently described in situ hybridization technique in archival samples (Meeker AK, Gage WR, Hicks JL, Simon I, Coffman JR, Platz EA, March GE, De Marzo AM: Telomere length assessment in human archival tissues: combined telomere fluorescence in situ hybridization and immunostaining. American Journal of Pathology 2002, 160:1259-1268) for assessment of telomere length in tissue microarrays containing a variety of noninvasive pancreatic ductal lesions. These included 82 PanIN lesions of all histological grades (24 PanIN-1A, 23 PanIN-1B, 24 PanIN-2, and 11 PanIN-3) that were selected from pancreatectomy specimens for either adenocarcinoma or chronic pancreatitis. Telomere fluorescence intensities in PanIN lesions were compared with adjacent normal pancreatic ductal epithelium and acini (62 of 82 lesions, 76%), or with stromal fibroblasts and islets of Langerhans (20 of 82 lesions, 24%). Telomere signals were strikingly reduced in 79 (96%) of 82 PanINs compared to adjacent normal structures. Notably, even PanIN-1A, the earliest putative precursor lesion, demonstrated a dramatic reduction of telomere fluorescence intensity in 21 (91%) of 23 foci examined. In chronic pancreatitis, reduction of telomere signal was observed in all PanIN lesions, whereas atrophic and inflammatory ductal lesions retained normal telomere length. Telomere fluorescence intensity in PanIN lesions did not correlate with proliferation measured by quantitative Ki-67-labeling index or topoisomerase IIalpha expression. Thus, telomere shortening is by far the most common early genetic abnormality recognized to date in the progression model of pancreatic adenocarcinomas. Telomeres may be an essential gatekeeper for maintaining chromosomal integrity, and thus, normal cellular physiology in pancreatic ductal epithelium. A critical shortening of telomere length in PanINs may predispose these noninvasive ductal lesions to accumulate progressive chromosomal abnormalities and to develop toward the stage of invasive carcinoma.
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PMID:Telomere shortening is nearly universal in pancreatic intraepithelial neoplasia. 1241 2

Pneumocystis carinii expresses a surface glycoprotein called MSG. Different isoforms of MSG are encoded by a gene family spread over at least 15 telomeric sites. Only one locus, called UCS, supports the production of MSG mRNA. Previous studies showed that P. carinii populations from individual rats exhibited high degrees of diversity with respect to the MSG genes attached to the UCS locus. This diversity could have been generated primarily in the rats studied. Alternatively, the rats may have been infected by P. carinii organisms that were already different at the UCS locus. To investigate this issue, we examined the UCS locus in P. carinii from rats that had been exposed to few of the microbes at a specified time, which produced a bottleneck in the microbial population. Some of the rats with bottlenecks produced P. carinii populations in which a single MSG sequence resided at the UCS locus in 80 to 90% of the organisms, showing that P. carinii can proliferate within a rat without generating the very high levels of UCS diversity previously seen. From the degree of diversity observed in the bottlenecked populations, the maximum rate of switching appeared to be 0.01 event per generation. These data also suggest that the infectious dose is as low as one organism, that rats that share a cage readily infect each other, and that the doubling time of P. carinii in vivo is approximately 3 days. In addition, we found that inoculation with 10(7) P. carinii organisms from a population highly heterogeneous at the UCS locus reproduced this heterogeneity. By contrast, shifts in population structure occurred in rats given 10(4) P. carinii organisms, suggesting that a small fraction of these proliferated.
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PMID:Diversity at the locus associated with transcription of a variable surface antigen of Pneumocystis carinii as an index of population structure and dynamics in infected rats. 1249 48

Untreated cultures from normal chorionic villus (CV) or amniotic fluid-derived (AF) samples displayed dramatic cell passage-dependent increases in aberrations in the juxtacentromeric heterochromatin of chromosomes 1 or 16 (1qh or 16qh). They showed negligible levels of chromosomal aberrations in primary culture and no other consistent chromosomal abnormality at any passage. By passage 8 or 9, 82 +/- 7% of the CV metaphases from all eight studied samples exhibited 1qh or 16qh decondensation and 25 +/- 16% had rearrangements in these regions. All six analyzed late-passage AF cultures displayed this regional decondensation and recombination in 54 +/- 16 and 3 +/- 3% of the metaphases, respectively. Late-passage skin fibroblasts did not show these aberrations. The chromosomal anomalies resembled those diagnostic for the ICF syndrome (immunodeficiency, centromeric region instability, and facial anomalies). ICF patients have constitutive hypomethylation at satellite 2 DNA (Sat2) in 1qh and 16qh, generally as the result of mutations in the DNA methyltransferase gene DNMT3B. At early and late passages, CV DNA was hypomethylated and AF DNA was hypermethylated both globally and at Sat2. DNMT1, DNMT3A, or DNMT3B RNA levels did not differ significantly between CV and AF cultures or late and early passages. The high degree of methylation of Sat2 in late-passage AF cells indicates that hypomethylation of this repeat is not necessary for 1qh decondensation. Sat2 hypomethylation may nonetheless favor 1qh and 16qh anomalies because CV cultures, with their Sat2 hypomethylation, displayed 1qh and 16qh decondensation and rearrangements at significantly lower passage numbers than did AF cultures. Also, CV cultures had much higher ratios of ICF-like rearrangements to heterochromatin decondensation in chromosomes 1 and 16. These cultures may serve as models to help elucidate the biological consequences of cancer-associated satellite DNA hypomethylation.
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PMID:Prolonged culture of normal chorionic villus cells yields ICF syndrome-like chromatin decondensation and rearrangements. 1258 36

ERBB2 is one of the most important oncogenes in breast cancer, and its disordered expression is commonly associated with gene amplification. Amplification of at least one gene near ERBB2, topoisomerase IIalpha (TOP2A), has been shown to be clinically significant, but the prevailing patterns of gene amplification in this region of chromosome arm 17q have not been studied systematically in clinical cases of breast cancer. For characterizing this region, a commercial ERBB2-containing contig probe and 7 probes prepared from single overlapping BAC and P1 clones lying telomeric to ERBB2 and including TOP2A were hybridized to 77 ERBB2-amplified archival breast tumor specimens from 75 patients. The 7 single-clone probes covered a region of approximately 650 kb starting 114 kb telomeric to ERBB2. Amplification of the ERBB2 contig target alone was found in 32% of the tumors, whereas all 8 probe targets were amplified in 12% of the tumors, based on an amplification criterion of there being more than or equal to 2 targets per chromosome 17 centromere. When one of the 7 overlapping probes encompassing TOP2A indicated amplification within a specimen, all probes telomeric to that probe usually showed amplification. Only 5 specimens had regions of normal or deleted targets separating 2 amplified targets. Also, tumors that showed deletion of TOP2A usually showed deletion of one or more contiguous targets. The observed patterns of amplification and deletion are consistent with the break-fusion-bridge model for gene amplification. TOP2A was amplified in 25% of all tumor specimens and was deleted in 24%, based on a deletion criterion of there being fewer than or equal to 0.75 targets per chromosome 17 centromere. Considering the relevance of the TOP2A gene product to anthracycline therapy and the wealth of other cancer-associated genes within the ERBB2/TOP2A region, the pattern of amplification and deletion near ERBB2 and TOP2A may have a dramatic effect on the malignant potential of breast carcinomas and their response to therapy.
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PMID:Gene copy mapping of the ERBB2/TOP2A region in breast cancer. 1503 64

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