UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomerase activity has been implicated in the progression of various human tumors. Our aim was to evaluate telomerase activity and to compare it with histo-pathological factors in uterine endometrial carcinoma, to look for possible correlations. Telomerase activity was measured by dilution analysis using a PCR-based telomeric repeat amplification method and detected in 31 of 35 primary endometrial carcinoma tumor specimens. High telomerase activity, detected after 100-fold dilution of extracts, was identified in 15 specimens. There was no significant correlation between the positive telomerase activity and tumor surgical stage or histo-pathological factors. However, high telomerase activity was significantly correlated with advanced surgical stage and with pelvic lymph node metastasis. Our findings suggest that an increase in telomerase activity may be associated with tumor progression and that its level may have a prognostic value in endometrial carcinoma.
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PMID:Telomerase activity correlates with histo-pathological factors in uterine endometrial carcinoma. 1050 33

Seventeen patients with endometrial cancer were studied. Tissues of primary (P) and metastatic (M) lesions were obtained from 8 patients and complete sets of P, M and Recurrent (R) lesions were obtained from 9 patients during a follow-up period of 1-10 years. Expressions of estrogen receptors, progesterone receptors, multidrug resistance protein-1, multidrug resistance-related protein, c-erbB-2, membrane-type metalloproteinase, human telomerase RNA, human telomerase reverse transcriptase RNA, E-cadherin and autocrine motility factor receptor were studied by RT-PCR. Also, telomeric restriction fragment length (TRFL) and microsatellite instability were determined between P, M and R. The results indicate that there are significant differences in the gene expression frequency during tumor progression. The mismatch rate ranged from 0 to 47.1% between P and M and from 14.3% to 66.7% between P and R, respectively. The TRFL analysis showed a marked reduction in P and M (P vs. M: 8.2 +/- 0.9 vs. 5.6 +/- 0.4 kb, mean +/-SEM, n = 9, p = 0.002 by paired Student's t test). The length further decreased in R (P vs. R: 8.2 +/- 0.9 vs. 3.2 +/- 0.7, p = 0.01, M vs. R: 5.6 +/- 0.4 vs. 3.2 +/- 0.7, p = 0.005). The genomic instability/replication error was tested by AluI arbitrary primed polymerase chain reaction (AP-PCR). Five out of 17 patients showed an altered replication error pattern (29.4%). The mean number of abnormal AluI AP-PCR patterns in M and R compared to the P was 1.5 (M) and 4 (R). The difference between the P and R was statistically significant (p < 0.04). The present data indicate that biological behavior of cancer cells in P, M and R may differ significantly.
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PMID:Gene expression in primary, metastatic and recurrent lesions of endometrial cancer. 1054 51

Unbalanced translocations generating trisomy of 1q are common in Wilms tumor (WT). We present eight unbalanced 1q translocations from seven tumors and a review of the literature. An unbalanced translocation that results in a der(16)t(1q;16q) chromosome represents more than half of the published +1q generating translocations in WT. This translocation is also common to many other tumor types. Four of the tumors presented here contained this chromosome and,in two cases, it was the primary acquired cytogenetic abnormality within the tumor. The other four translocations involved 9q31, 9q34, 17p1?, and 21p11 as the partner to 1q. The chromosome 17 and 21 translocations occurred within the same tumor as apparently independent events. In contrast with the 16q translocations, these other translocations were secondary cytogenetic events, thereby indicating a role in tumor progression rather than initiation. Probes mapping to 1q12 and 1q21 were employed for fluorescence in situ hybridization and it was demonstrated that different 1q breakpoints are possible. In this series, the majority of breakpoints either mapped to 1q12 or were centromeric to this region.
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PMID:Trisomy 1q generating translocations in Wilms tumor. 1068 41

The ends of linear chromosomes are capped by specialized nucleoprotein structures termed telomeres. Telomeres comprise tracts of noncoding hexanucleotide repeat sequences that, in combination with specific proteins, protect against degradation, rearrangement, and chromosomal fusion events. Due to the polarity of conventional DNA synthesis, a net loss of telomeric sequences occurs at each cell division. It has been proposed that this cumulative telomeric erosion is a limiting factor in replicative capacity and elicits a signal for the onset of cellular senescence. To proliferate beyond the senescent checkpoint, cells must restore telomere length. This can be achieved by telomerase, an enzyme with reverse-transcriptase activity. This enzyme is absent in differentiated somatic tissues, but telomerase reactivation has been detected in most tumors. Much investigative effort is focusing on telomere dynamics with a view to possible manipulation of cellular proliferative potential. In this article, we review the role of telomeres and telomerase in senescence and tumor progression, and we discuss the potential use of telomerase in diagnosis and treatment.
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PMID:Role of telomerase in cell senescence and oncogenesis. 1077 53

Shortening of the telomeric DNA at chromosome ends is postulated to limit the lifespan of human cells. In contrast, activation of telomerase, the enzyme that synthesizes telomeric DNA, is proposed to be an essential step in cancer cell immortalization and cancer progression. This review discusses the structure and function of telomeres and telomerase, the role of telomerase in cell immortalization, and the effects of telomerase inactivation on normal and cancer cells. Moreover, data on the experimental use of telomerase assays for cancer detection and diagnosis are reviewed. Finally, the review considers the evidence regarding whether telomerase inhibitors could be used to treat human cancers.
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PMID:Role of telomerase in normal and cancer cells. 1089 96

Loss of chromosome 10q is a critical step during the progression and metastasis formation of lung cancer. We recently defined 3 distinct regions of allelic imbalances and considered the DMBT1 gene at 10q25-q26 an interesting candidate for the most telomeric region. Therefore, we investigated DMBT1 in 25 cancer cell lines and 39 primary tumors of the respiratory tract. The analysis by RT-PCR and Northern blot hybridization revealed that the gene is expressed in all tumors and cell lines and diminished in the SCLC line H187, indicating that RT-PCR is critical when used as the single method for the evaluation of gene expression. No mutations were found by SSCP analysis of the cDNA and the partially known genomic sequence. Similarly, Southern blot hybridization was unable to detect homozygous deletions. Allelotyping of the markers D10S587, D10S1708 and D10S1723 located near or within the DMBT1 gene did not reach the peak incidence of the 3 minimally deleted regions that we recently defined. In summary, our data do not confirm previous findings reporting frequent loss of DMBT1 expression in lung cancer. However, they strengthen the notion that the responsible gene on chromosome 10q25-q26 mediating tumor progression and metastasis formation in respiratory tract cancer remains enigmatic.
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PMID:Analysis of the DMBT1 gene in carcinomas of the respiratory tract. 1096 42

Telomerase is an enzyme which synthesizes the telomeres, TTAGGG repeats at the end of vertebrate chromosomes. Its activity is suppressed in the majority of somatic cells, whereas it is detectable in most tumor cell lines and human cancers. Telomerase activity has been evaluated in many tumors for diagnostic purposes, and an increase thereof has been found with tumor progression. In our study we used anonisotopic polymerase chain reaction (PCR)-based TRAP (telomeric repeat amplification protocol) method to quantify the level of telomerase activity in a series of cutaneous melanocytic lesions. Thirty-three benign nevi, 8 dysplastic nevi, 38 malignant melanomas, and 4 melanoma metastases were analyzed. Mean relative telomerase activity was low in benign nevi (3.5+/-2.9), and significantly increased in dysplastic nevi (13.1+/-6.8), malignant melanomas (49.8+/-29.6), and metastases (121.2+/-11.2). In addition to the evaluation of telomerase activity as a possible diagnostic tool, its increase with tumor progression also suggest a prognostic role in cutaneous melanoma.
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PMID:Evaluation of telomerase activity in cutaneous melanocytic proliferations. 1101 65

Activation of telomerase may allow unlimited cell proliferation and immortalization. One of the telomerase protein subunits has a reverse transcriptase (hTERT) activity that is essential for telomerase function and regulation. In human gliomas, telomerase is frequently associated with malignant tumor progression. In our study, we investigated the expression of hTERT at the cellular level in 34 primary de novo glioblastoma multiforme (GBM) by in situ hybridization (ISH). The expression of hTERT in tumor tissue was also assessed by RT-PCR. In addition, telomerase activity measured by telomeric repeat amplification protocol (TRAP) and telomere length polymorphism assayed by telomere restriction fragment (TRF) Southern blot were investigated. We found that all GBM, including those with negative TRAP reaction, contained abundant amounts of cytoplasmic hTERT mRNA. Interestingly, the ISH analysis revealed that the hTERT mRNA was homogeneously expressed by the whole tumor cell population in about 60% of the GBM. In the remaining cases, hTERT was absent in subsets of tumor cells. TRF analysis, which shows that both TRAP-positive and TRAP-negative de novo GBM have elongated telomeres, further supports that telomerase activity is present in all de novo GBM. Correlations with tumor size and extent of necrosis suggest that hTERT reactivation is an early event in GBM development and that telomerase activity may be lost in subpopulations of neoplastic cells during tumor progression. Finally, ISH analysis of hTERT mRNA seems to provide a prognostic parameter for primary de novo GBM.
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PMID:In situ detection of telomerase catalytic subunit mRNA in glioblastoma multiforme. 1109 11

Cancer of the uterine cervix (CaCx) is the second most common cancer in women worldwide. More than 99% of all cervical cancers contain high-risk human papillomaviruses (HPVs), with type 16 predominating. HPV infection alone is not sufficient for neoplastic progression; the HPV-infected cell must undergo additional genetic changes. Cytogenetic analysis of CaCx has been limited due to difficulties in obtaining good-quality banded chromosome preparations. Oncogenic HPVs immortalise primary genital keratinocytes in vitro, and evidence suggests that the molecular genetic and cytogenetic abnormalities observed in HPV immortalised cells reflect the in vivo changes. Therefore, these lines represent suitable models for HPV-induced carcinogenesis. We have used both spectral karyotyping (SKY) and multiplex-FISH (M-FISH) analysis to identify karyotypic changes in HPV-16 immortalised keratinocyte cell lines and established CaCx lines. SKY and M-FISH identified chromosomal abnormalities in all cell lines examined, with a translocation of chromosome 10 or i(10q) occurring in 9 of the 12 cell lines investigated. Further studies with chromosome 10 band-specific probes identified the translocation event as involving 10q with the breakpoint at 10p11.2 in some cell lines or 10q11.2 in others. The pericentric region of chromosome 10 is known to contain duplicated sequences flanking the centromeric satellites. The duplicated sequences contain many zinc finger transcription factor encoding genes and disruption of these in HPV immortalised cell lines may alter the transcription with consequences for both cellular and viral gene expression.
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PMID:Early genetic events in HPV immortalised keratinocytes. 1110 78

Telomerase, a cellular reverse transcriptase, adds telomeric repeats to chromosome ends. In normal human somatic cells, telomerase is repressed and telomeres progressively shorten, leading to proliferative senescence. Introduction of the telomerase (hTERT) cDNA is sufficient to produce telomerase activity and immortalize normal human cells, suggesting that the repression of telomerase activity is transcriptional. The telomerase transcript has been shown to have at least six alternate splicing sites (four insertion sites and two deletion sites), and variants containing both or either of the deletion sites are present during development and in a panel of cancer cell lines we surveyed. One deletion (beta site) and all four insertions cause premature translation terminations, whereas the other deletion (alpha site) is 36 bp and lies within reverse transcriptase (RT) motif A, suggesting that this deletion variant may be a candidate as a dominant-negative inhibitor of telomerase. We have cloned three alternately spliced hTERT variants that contain the alpha, beta or both alpha and beta deletion sites. These alternate splicing variants along with empty vector and wild-type hTERT were introduced into normal human fibroblasts and several telomerase-positive immortal and tumor cell lines. Expression of the alpha site deletion variant (hTERT alpha-) construct was confirmed by Western blotting. We found that none of the three alternate splicing variants reconstitutes telomerase activity in fibroblasts. However, hTERT alpha- inhibits telomerase activities in telomerase-positive cells, causes telomere shortening and eventually cell death. This alternately spliced dominant-negative variant may be important in understanding telomerase regulation during development, differentiation and in cancer progression.
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PMID:An alternate splicing variant of the human telomerase catalytic subunit inhibits telomerase activity. 1119 Nov 10

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