UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A significant percentage of prostate tumors have amplifications of the c-Myc gene, but the precise role of c-Myc in prostate cancer is not fully understood. Immortalization of human epithelial cells involves both inactivation of the Rb/p16INK4a pathway and telomere maintenance, and it has been recapitulated in culture by expression of the catalytic subunit of telomerase, hTERT, in combination with viral oncoproteins. Here, we show the immortalization of human prostate epithelial cells (HPrEC) by a single genetic event, the expression of the c-Myc oncogene. Myc stabilizes telomere length in HPrEC through up-regulation of hTERT expression and overrides the accumulation of cell cycle inhibitory proteins, such as p16INK4a. Overall, HPrECs expressing c-Myc retain many characteristics of normal cells, such as the induction of a senescence-like growth arrest in response to oncogenic Ras, an intact p53 response, and an absence of gross karyotypic abnormalities. However, HPrECs expressing c-Myc lack a Rb/p16INK4a checkpoint and can be transformed without the need for additional genetic lesions in that pathway. These results give a partial explanation for the physiologic role of c-Myc overexpression in prostate cancer.
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PMID:Immortalization of primary human prostate epithelial cells by c-Myc. 1578 29

A role for cyclooxygenase-2 (COX-2) in the development and progression of various tumors has been identified. Selective COX-2 inhibitors produce anti-proliferative effects in various cancer cell lines that express COX-2. However, the mechanisms underlying anti-tumor effects are unclear. Furthermore, few studies have studied COX-2 expression in gynecological cancers, especially endometrial cancer. The current study had two goals. We investigated the correlation between COX-2 expression and clinicopathological factors of uterine endometrial cancer. We also investigated effects of treatment with etodolac, a selective COX-2 inhibitor, on the uterine endometrial cancer cell line TMG-L, which expresses COX-2. We conclusively confirmed expression of COX-2 mRNA and protein in endometrial cancer that exceeded levels of COX-2 seen in normal endometrium. However, no significant correlations were observed between COX-2 expression in endometrial cancer tumor samples and clinicopathological factors or disease-free survival rate of patients with endometrial cancer. Study of COX-2 inhibition of TMG-L cells showed that etodolac produced dose-dependent inhibition of cell proliferation through G1 phase cell-cycle arrest. Etodolac-induced cell-cycle arrest might be caused by increases in p53 and P21WAF1 protein expression. Production of basic-fibroblast growth factor (bFGF, a pro-angiogenesis factor) was inhibited by etodolac in a dose-dependent manner. Furthermore, telomerase activity was inhibited and expression of hTERT mRNA was significantly inhibited with etodolac, leading to the conclusion that anti-tumor effects of etodolac on TMG-L cells are due to inhibition of both angiogenesis and telomerase activity. These results strongly suggest that COX-2 inhibitors have potential as therapeutic (and possibly, chemopreventive) agents for endometrial cancers that overexpress COX-2.
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PMID:Expression of cyclooxygenase-2 in uterine endometrial cancer and anti-tumor effects of a selective COX-2 inhibitor. 1580 36

In a majority of malignant human tumors telomerase activity can be detected, suggesting an immortal phenotype. Expression of the reverse transcriptase subunit, hTERT, in the human telomerase complex is required for telomerase activity. The regulation of hTERT, from gene level to a fully functional protein, is still a poorly understood process. Increased copy number of the hTERT gene has been demonstrated in a significant portion of established cell lines and tumors of different origin but its relevance for telomerase activity levels is unclear. In the present study, we examined the hTERT gene copy number using fluorescence in situ hybridization (FISH) in samples from 64 colorectal carcinomas and an increased copy number (> or = 3 hTERT gene copies/nucleus) was observed in 31 cases (48%). No statistical association existed between hTERT gene copy number and hTERT RNA expression or telomerase activity. However, a significant relationship was found between an increase in hTERT gene copy number and p53 protein accumulation (p = 0.002) and aneuploidy (p = 0.036). Only 4 tumors showed microsatellite instability, 3 of which had a normal hTERT gene copy number. The data indicated that the increased copy number of the hTERT gene in colorectal carcinoma was a result of genomic instability with no obvious consequence for telomerase activity levels.
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PMID:hTERT gene copy number is not associated with hTERT RNA expression or telomerase activity in colorectal cancer. 1581 16

Advanced age is strikingly linked to increased incidence of cancer. To gain insight into the mechanism underlying the association between increased cancer incidence and aging in normal human physiological conditions, we used a case-control design and measured the mRNA expression levels of p53, ATM, hTERT and TRF2, the four major protectors of genomic integrity, in isolated peripheral blood lymphocytes from 202 confirmed bladder cancer (BC) patients and 199 healthy controls. Significant age effects on expression levels were observed. When we divided the study subjects into three age groups (<57, 57-65 and > or = 65), the expressions of p53, ATM and TRF2 significantly decreased with advancing age in cases (P for trend < or = 0.001, 0.01 and 0.01 for p53, ATM and TRF2, respectively). In controls, however, p53 expression significantly increased with advancing age (P for trend = 0.05). Among subjects > or = 65 years of age, the expressions of p53, ATM and TRF2 were significantly lower in cases than in controls (P = 0.003, 0.04 and 0.05 for p53, ATM and TRF2, respectively), suggesting that attenuated genomic maintenance mechanisms lead to increased cancer risk in older individuals. When we dichotomized our study population at the median age of study subjects (61 years old), low p53 expression was associated with a significantly increased BC risk in older people (OR = 2.27, 95% CI = 1.00-5.16). In addition, older subjects without detectable hTERT expression had a significantly reduced BC risk (OR = 0.41, 95% CI = 0.17-0.99). Our study provides the first epidemiologic evidence that the increased genomic instability resulting from the combination of telomere dysfunction, impaired ATM- and p53-mediated DNA damage, and/or telomere dysfunction response pathway contributes to increased cancer incidence in the elderly population.
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PMID:Roles of tumor suppressor and telomere maintenance genes in cancer and aging--an epidemiological study. 1590 4

Here, we investigated the role of telomerase on Bcl-2-dependent apoptosis. To this end, the 4625 Bcl-2/Bcl-xL bispecific antisense oligonucleotide and the HA14-1 Bcl-2 inhibitor were used. We found that apoptosis induced by 4625 oligonucleotide was associated with decreased Bcl-2 protein expression and telomerase activity, while HA14-1 triggered apoptosis without affecting both Bcl-2 and telomerase levels. Interestingly, HA14-1 treatment resulted in a profound change from predominantly nuclear to a predominantly cytoplasmic localization of hTERT. Downregulation of endogenous hTERT protein by RNA interference markedly increased apoptosis induced by both 4625 and HA14-1, while overexpression of wild-type hTERT blocked Bcl-2-dependent apoptosis in a p53-independent manner. Catalytically and biologically inactive hTERT mutants showed a similar behavior as the wild-type form, indicating that hTERT inhibited the 4625 and HA14-1-induced apoptosis regardless of telomerase activity and its ability to lengthening telomeres. Finally, hTERT overexpression abrogated 4625 and HA14-1-induced mitochondrial dysfunction and nuclear translocation of hTERT. In conclusion, our results demonstrate that hTERT is involved in mitochondrial apoptosis induced by targeted inhibition of Bcl-2.
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PMID:Involvement of hTERT in apoptosis induced by interference with Bcl-2 expression and function. 1592 May 35

Normal human mammary epithelial cells (HMECs) have a finite life span and do not undergo spontaneous immortalization in culture. Critical to oncogenic transformation is the ability of cells to overcome the senescence checkpoints that define their replicative life span and to multiply indefinitely -- a phenomenon referred to as immortalization. HMECs can be immortalized by exposing them to chemicals or radiation, or by causing them to overexpress certain cellular genes or viral oncogenes. However, the most efficient and reproducible model of HMEC immortalization remains expression of high-risk human papillomavirus (HPV) oncogenes E6 and E7. Cell culture models have defined the role of tumor suppressor proteins (pRb and p53), inhibitors of cyclin-dependent kinases (p16INK4a, p21, p27 and p57), p14ARF, telomerase, and small G proteins Rap, Rho and Ras in immortalization and transformation of HMECs. These cell culture models have also provided evidence that multiple epithelial cell subtypes with distinct patterns of susceptibility to oncogenesis exist in the normal mammary tissue. Coupled with information from distinct molecular portraits of primary breast cancers, these findings suggest that various subtypes of mammary cells may be precursors of different subtypes of breast cancers. Full oncogenic transformation of HMECs in culture requires the expression of multiple gene products, such as SV40 large T and small t, hTERT (catalytic subunit of human telomerase), Raf, phosphatidylinositol 3-kinase, and Ral-GEFs (Ral guanine nucleotide exchange factors). However, when implanted into nude mice these transformed cells typically produce poorly differentiated carcinomas and not adenocarcinomas. On the other hand, transgenic mouse models using ErbB2/neu, Ras, Myc, SV40 T or polyomavirus T develop adenocarcinomas, raising the possibility that the parental normal cell subtype may determine the pathological type of breast tumors. Availability of three-dimensional and mammosphere models has led to the identification of putative stem cells, but more studies are needed to define their biologic role and potential as precursor cells for distinct breast cancers. The combined use of transformation strategies in cell culture and mouse models together with molecular definition of human breast cancer subtypes should help to elucidate the nature of breast cancer diversity and to develop individualized therapies.
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PMID:Mammary epithelial cell transformation: insights from cell culture and mouse models. 1598 72

Murine embryo fibroblasts are readily transformed by the introduction of specific combinations of oncogenes; however, the expression of those same oncogenes in human cells fails to convert such cells to tumorigenicity. Using normal human and murine embryonic fibroblasts, we show that the transformation of human cells requires several additional alterations beyond those required to transform comparable murine cells. The introduction of the c-Myc and H-RAS oncogenes in the setting of loss of p53 function efficiently transforms murine embryo fibroblasts but fails to transform human cells constitutively expressing hTERT, the catalytic subunit of telomerase. In contrast, transformation of multiple strains of human fibroblasts requires the constitutive expression of c-Myc, H-RAS, and hTERT, together with loss of function of the p53, RB, and PTEN tumor suppressor genes. These manipulations permit the development of transformed human fibroblasts with genetic alterations similar to those found associated with human cancers and define specific differences in the susceptibility of human and murine fibroblasts to experimental transformation.
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PMID:Transformation of human and murine fibroblasts without viral oncoproteins. 1602 84

Based on previous studies, a minimal set of genetic alterations that is required to convert normal human fibroblasts into cancer cells has been defined. Essential roles for telomere maintenance and alterations in phosphatase 2A activity were inferred from experiments in which tumorigenicity was tested by injecting cells under the skin of immunodeficient mice. However, in the present experiments, the combination of SV40 large T antigen and activated Ras, without hTERT or SV40 small t antigen, was sufficient to convert nine different primary human fibroblast cell strains to a fully malignant state. The malignant behavior of the cells was demonstrated by growth of the cells into invasive tumors when the cells were injected beneath the kidney capsule of immunodeficient mice. Lung metastases and circulating tumor cells were also detected. These tumors were not immortal; cells entered crisis, from which they could be rescued by expression of hTERT. However, the same cell populations were not tumorigenic when they were injected under the skin. In this site, tumorigenicity required the expression of hTERT and SV40 small t antigen as well as SV40 large T antigen and Ras. The cellular pathways targeted by SV40 large T antigen (p53 and pRb) and those targeted by activated Ras represent a minimal set of genetic alterations required for the conversion of normal human fibroblasts into cancer cells.
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PMID:The minimal set of genetic alterations required for conversion of primary human fibroblasts to cancer cells in the subrenal capsule assay. 1603 9

Costunolide, a natural sesquiterpene compound, has been known having cytotoxic and chemopreventive effects on various human cancer cells. In the present study, we examined the effects of costunolide on telomerase activity and on the components of telomerase in MCF-7 (wild-type p53) and MDA-MB-231 (mutant p53) cells. We found that costunolide inhibited the growth and telomerase activity of MCF-7 and MDA-MB-231 cells in a concentration- and time-dependent manner. The expression of hTERT mRNA was also inhibited but hTR mRNA was not. In addition, the bindings of transcription factors in hTERT promoters were significantly decreased in both cells by the treatment of costunolide. These results suggest that costunolide inhibited the growth of both MCF-7 and MDA-MB-231 cells and this effect was mediated at least in part by a significant reduction in telomerase activity.
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PMID:Inhibitory effects of costunolide on the telomerase activity in human breast carcinoma cells. 1611 18

Previously, we reported successful immortalisation following hTERT introduction in primary human fibroblasts, strain VH25. Since one subclone in that study developed some abnormalities, we decided to study eight additional independent immortalised clones to get an indication of the frequency and type of abnormalities that develop after hTERT-mediated immortalisation. We show that although some cell lines can maintain a normal phenotype for 500 population doublings (PDs), in four clones after 150-300PDs changes developed in basal and radiation-induced p53 and p21(WAF-1,CIP-1) levels. Our experiments demonstrate that, after prolonged culture, cells with abnormalities in cell cycle control parameters can take over the population. This calls for caution when working with hTERT-immortalised cells in vitro as well as in vivo.
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PMID:Continuous growth of telomerase-immortalised fibroblasts: how long do cells remain normal? 1621 74

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