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: UMLS:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomerase activation is thought to be a critical step in cellular immortality and oncogenesis. Several reagents including differentiation-inducing and antineoplastic agents are known to inhibit telomerase activity, although the molecular mechanisms through which they inhibit telomerase activity remain unclear. Demethylating reagents have recently been used as potential antineoplastic drugs for some types of cancers including those of the prostate. In the present study, we examined the effect of the demethylating reagent 5-azacytidine (5-aza-CR) on telomerase activity using cells of two prostate cancer cell lines, DU-145 and TSU-PR1. 5-aza-CR treatment significantly reduced telomerase activity in TSU-PR1 cells, but not in DU-145 cells, although growth inhibition was observed to a similar extent in both cell lines. Reverse transcription-PCR analyses revealed that inhibition of telomerase activity was accompanied by down-regulation of telomerase catalytic subunit (hTERT) mRNA expression. Transient expression assays showed that 5-aza-CR repressed the transcriptional activity of the hTERT promoter and that the E-box within the core promoter was responsible for this down-regulation. Western blot analyses revealed that 5-aza-CR reactivated p16 expression and repressed c-Myc expression in TSU-PR1 cells but not in DU-145 cells. Overexpression of p16 in TSU-PR1 cells led to significant repression of c-Myc transcription. These findings suggest that 5-aza-CR inhibits telomerase activity via transcriptional repression of hTERT, in which p16 and c-Myc may play a key role.
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PMID:Demethylating reagent 5-azacytidine inhibits telomerase activity in human prostate cancer cells through transcriptional repression of hTERT. 1091 36

Telomerase activity has been detected in >85% of all malignant human cancers, including 90% of prostate carcinomas. Using a well-characterized experimental prostate cancer system, we have found that telomerase activity is notably increased (>10-fold) during tumorigenic conversion. Expression profiles of the telomerase components (hTR and hTERT) revealed no substantive changes, which suggests a nontranscriptional mechanism for increased activity. Because the hsp90 chaperone complex functionally associates with telomerase, we investigated that relationship and found that along with telomerase activity, a number of hsp90-related chaperones are markedly elevated during transformation, as well as in advanced prostate carcinomas. Using the nontumorigenic cell protein extract as the source of telomerase, addition of purified chaperone components enhanced reconstitution of telomerase activity, which suggests a novel mechanism of increased telomerase assembly via a hsp90 chaperoning process during prostate cancer progression.
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PMID:A novel mechanism for chaperone-mediated telomerase regulation during prostate cancer progression. 1140 54

Telomerase activity is involved in cellular immortality. We have recently demonstrated that telomerase activity is closely associated with cell proliferation in prostate cancers. Telomerase is composed primarily of the catalytic subunit (hTERT) and the RNA template (hTERC), and hTERT expression is regulated by several factors such as c-MYC and p21(Waf1). Histone deacetylase (HDAC) inhibitors are known to modulate transcription and exhibit antiproliferative effects on cancer cells. The present study was designed to evaluate the effects of HDAC inhibitors on hTERT mRNA expression in prostate cancer cells. LNCaP and PC-3 cells were treated with HDAC inhibitors, trichostatin A (TSA) and sodium butyrate (NaB); mRNA expression and telomerase activity were evaluated by RT-PCR and the TRAP assay, respectively. In LNCaP cells, hTERT mRNA expression was suppressed at 1 and 3 hr after treatment with 1 microM TSA and 4 mM NaB, respectively, followed by inhibition of telomerase activity. The inhibition of hTERT mRNA expression preceded suppression of cell proliferation. In PC-3 cells, TSA and NaB also inhibited cell proliferation, hTERT mRNA expression and telomerase activity. In both cell lines, TSA and NaB had no effect on hTERC expression, or on expression of c-myc and p21(Waf1) mRNA. These effects of TSA and NaB were unlikely to be consequences of cell cycle arrest, apoptosis, or cell differentiation. Thus, HDAC inhibitors down-regulated telomerase activity via suppression of hTERT mRNA expression. Our study identified a novel mechanism for the antiproliferative effects of HDAC inhibitors on prostate cancer cells.
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PMID:Histone deacetylase inhibitors suppress telomerase reverse transcriptase mRNA expression in prostate cancer cells. 1180 87

We identified DD3(PCA3) as one of the most prostate cancer-specific genes at present (M. J. Bussemakers et al. Cancer Res., 59: 5975-5979, 1999). Consequently, DD3(PCA3) is an interesting candidate for use as a diagnostic and/or prognostic marker. In this study we developed a method for the accurate quantification of DD3(PCA3) mRNA, using real-time quantitative reverse transcription-PCR. DD3(PCA3) was expressed at low levels in normal prostate but not in 21 selected other normal tissues, blood, or 39 tumor samples other than prostate. The diagnostic and prognostic value of DD3(PCA3) in normal, hyperplastic, and malignant prostate tissues was determined and compared with another promising tumor marker for prostate cancer, telomerase reverse transcriptase (hTERT gene), the expression of which is related to telomerase activity. Sensitivity and specificity estimates for both genes were calculated as the area under the receiver-operating characteristics curve (AUC-ROC). DD3(PCA3) (AUC-ROC, 0.98) demonstrated better diagnostic efficacy than hTERT (AUC-ROC, 0.88). Moreover, the median increase in mRNA expression in tumor tissues compared with nonmalignant prostate tissues was much higher for DD3(PCA3) (34-fold) than for hTERT (6-fold). In tumor tissues, the median expression of DD3(PCA3) was much higher than hTERT (5849 versus 10 normalized mRNA copies). A significant relationship was observed only between tumor stage and hTERT gene expression. We conclude that expression of the DD3(PCA3) gene is a very sensitive and specific marker for the detection of prostate tumor cells in a high background of normal (prostate) cells. Consequently, DD3 measurements may be used for clinical application in prostate needle biopsies or bodily fluids such as blood, ejaculate, urine, or prostate massage fluid.
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PMID:DD3(PCA3), a very sensitive and specific marker to detect prostate tumors. 1290 58

Sex steroid hormone receptors play a central role in all stages of prostate cancer. Here, we tested whether estrogen receptor (ER) signaling contributes to telomerase activation, an early event in prostate tumorigenesis. Following 17beta-estradiol (E(2)) treatment, both mRNA encoding the catalytic subunit of human telomerase (hTERT) and telomerase activity were promptly induced in human prostate normal epithelial cells, fresh explants from benign prostate hyperplasia, and prostate cancer explants and cell lines. Reporter expression studies and in vivo chromatin immunoprecipitation assays revealed E(2)-dependent hTERT promoter induction and showed that both ERalpha and ERbeta bound this sequence. Crucially, addition of the anti-estrogen 4-hydroxytamoxifen caused a differential recruitment in vivo of ERalpha and ERbeta onto the hTERT promoter and inhibited telomerase activity. Treatment with the aromatase inhibitor letrozole, which prevented testosterone-mediated interaction between ER and the hTERT estrogen response element, resulted in a negative regulation of telomerase activity. Thus, intracellular conversion of androgens to estrogens may contribute to the etiopathogenesis of prostate cancer. Given the present evidence for direct control of hTERT gene expression and telomerase activity in the prostate by the ER, we suggest that this transcriptional regulator represents a possible therapeutic target in prostate cancer.
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PMID:Signaling through estrogen receptors modulates telomerase activity in human prostate cancer. 1212 14

FR901228 is a novel histone deacetylase (HDAC) inhibitor, and its antiproliferative effects on non-small cell lung cancer cells have been shown in vitro. However, there have been no reports concerning the effects on small-cell lung cancer (SCLC). We have recently demonstrated that the HDAC inhibitors trichostatin A and sodium butyrate inhibit expression of the catalytic subunit of telomerase (hTERT) mRNA and telomerase activity in prostate cancer cells. The present study was designed to evaluate the effects of FR901228 on proliferation and telomerase activity in SCLC cells in vitro. FR901228 at 5 to 10 nM increased the fraction of cells in the G(2)/M and sub-G(1) phases of the cell-cycle, and inhibited the growth of H69, H526 and H82 cell lines. The expression of hTERT mRNA was inhibited 6 hr after treatment, prior to obvious inhibition of cell growth or cell-cycle distribution shifts. The inhibition of hTERT mRNA expression and telomerase activity was not a consequence of cell-growth arrest or apoptosis. Cycloheximide blocked the suppression of hTERT mRNA induced by FR901228, and the inhibition of hTERT mRNA by FR901228 required newly synthesized proteins. FR901228 also effectively inhibited growth of etoposide-resistant UMCC-1/VP-16, irinotecan-resistant PC-6/SN2-5H and cisplatin-resistant H526/CDDP cells having decreased expression of hTERT mRNA and telomerase activity, as well as their parental cells. This implies that SCLC resistant to these key drugs are not cross-resistant to FR901228. The present study suggests that FR901228 may be a promising drug for chemotherapy of cancers including SCLC, even for refractory or relapsing tumors after conventional chemotherapy.
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PMID:Antiproliferative effects of the histone deacetylase inhibitor FR901228 on small-cell lung cancer lines and drug-resistant sublines. 1256 81

The insulin-like growth factor (IGF) axis is a complex system composed of 2 mitogenic ligands, IGF-I and -II, 2 receptors, IGF-1R and IGF-2R, and 6 binding proteins, IGFBP-1 to -6. The IGFBPs exert their actions through their regulation of IGF bioavailability for IGF receptors. In addition, some IGFBPs have also been found to have direct cellular actions independent of IGFs. IGFBP-2 is a major IGFBP in the prostate and in seminal fluid. IGFBP-2 levels, which are elevated in many malignancies, are markedly increased in prostate cancer, and show a positive correlation with prostate specific antigen (PSA) and prostate tumor aggressiveness. We investigated the potential role of IGFBP-2 in the pathogenesis of prostate cancer by evaluating its ability to stimulate growth and the expression and activity of the nuclear enzyme, telomerase. We found IGFBP-2 to have a modest suppressive effect on the growth of primary cultures of normal prostate epithelial cells and a potent IGF-antagonistic effect in these cells, similar to previous reports on the inhibitory nature of this molecule. Surprisingly, IGFBP-2 had a potent stimulatory effect on growth of LAPC-4 prostate cancer cells, an effect that was more pronounced in the absence of androgens. IGFBP-2 growth stimulation of LAPC-4 cells was completely blocked by MAP-kinase inhibitors and partially blocked by PI3-kinase inhibitors. IGFBP-2 stimulation of LAPC-4 cell growth seen in serum-free conditions was lost in the presence of 10% FBS. IGFBP-2 also had a growth stimulatory effect on DU 145 prostate cancer cells. IGFBP-2 significantly stimulated telomerase activity in LAPC-4 cells in the absence of androgens. In addition, IGFBP-2 significantly stimulated hTERT expression and telomerase activity in DU 145 cells. Thus, we demonstrated an inhibitory effect of IGFBP-2 on non-malignant prostate cells, but showed it to be stimulatory for prostate cancer cells in a MAP-kinase and androgen-modulated process. In conclusion, IGFBP-2 may play a role in the progression, but not in the initiation of the prostate cancer disease process, suggesting the existence of a molecular switch transitioning IGFBP-2 from a growth inhibitor to a pro-carcinogenic molecule.
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PMID:Novel stimulatory role for insulin-like growth factor binding protein-2 in prostate cancer cells. 1267 24

Because peptide nucleic acids (PNAs) are poorly taken up by mammalian cells, strategies need to be developed for their intracellular delivery. In the present study, we demonstrated the possibility to efficiently release a naked PNA targeting the catalytic component of human telomerase reverse transcriptase (hTERT-PNA) into the cytoplasm of DU145 prostate cancer cells through the photochemical internalization approach. After light exposure, cells treated with the hTERT-PNA and photosensitizer TPPS(2a) showed a marked inhibition of telomerase activity and a reduced cell survival, which was not observed after treatment with hTERT-PNA alone. Moreover, in a direct comparison, photochemical internalization technology proved to be more efficient to internalize the hTERT-PNA than an HIV-Tat protein-based approach.
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PMID:Photochemical internalization of a peptide nucleic acid targeting the catalytic subunit of human telomerase. 1283 32

Understanding of molecular genetic mechanisms underlying prostate carcinogenesis would be greatly advanced by in vitro models of prostate tumors representing primary tumors. We have successfully established a neoplastic immortalized human prostate epithelial (HPE) clonal culture derived from a primary tumor of a prostate cancer patient (RC-58T) with hTERT, the catalytic subunit of telomerase. The early passage RC-58T cells derived from a radical prostatectomy specimen of a 52-year-old white male patient was transduced through infection with a retrovirus vector expressing the hTERT for the establishment of the RC-58T/hTERT cell line. One clonal line, soft-agar derived from the RC-58T/hTERT cell line, was isolated and further characterized phenotypically and genetically. These clonal (RC-58T/hTERT SA#4) cells are currently growing well at passage 70 and exhibit transformed morphology. The RC-58T/hTERT SA#4 line expressed a high level of telomerase activity and showed anchorage-independent growth in soft agar. The clonal line like the untransduced RC-58T cells (passage 3) expressed prostate specific antigen (PSA), androgen receptor (AR), prostate stem cell antigen (PSCA), and an androgen-regulated prostate specific gene NKX3.1, P16, and cytokeratin (CK) 8. Growth is slightly stimulated by dihydrotestosterone (DHT), and lyates are immunoreactive with AR antibody by Western blot analysis. More importantly, this clonal line produced adenocarcinomas when transplanted into SCID mice. A number of chromosome alterations were observed including the loss of chromosome Y, 1q, 2p, 3p, 4q, 8p, 11p, 14p, 17p and 18q. Our results demonstrate that this primary tumor-derived HPE cell line retained its neoplastic phenotypes and its prostate specific markers and should allow elucidating molecular and genetic alterations involved in prostate cancer. This is the first documented case of an AR and PSA expressing telomerase established human prostate cancer cell line with neoplastic phenotypes from a primary tumor of a prostate cancer patient.
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PMID:A telomerase-immortalized primary human prostate cancer clonal cell line with neoplastic phenotypes. 1537 56

Telomerase reverse transcriptase (hTERT) represents an attractive target for cancer immunotherapy because hTERT is reactivated in most human tumors. A clinical trial was initiated in which hTERT mRNA-transfected dendritic cells (DC) were administered to 20 patients with metastatic prostate cancer. Nine of these subjects received DC transfected with mRNA encoding a chimeric lysosome-associated membrane protein-1 (LAMP) hTERT protein, allowing for concomitant induction of hTERT-specific CD8+ and CD4+ T cell responses. Treatment was well tolerated. Intense infiltrates of hTERT-specific T cells were noted at intradermal injection sites after repeated vaccination. In 19 of 20 subjects, expansion of hTERT-specific CD8+ T cells was measured in the peripheral blood of study subjects, with 0.9-1.8% of CD8+ T cells exhibiting Ag specificity. Patients immunized with the chimeric LAMP hTERT vaccine developed significantly higher frequencies of hTERT-specific CD4+ T cells than subjects receiving DC transfected with the unmodified hTERT template. Moreover, CTL-mediated killing of hTERT targets was enhanced in the LAMP hTERT group, suggesting that an improved CD4+ response could augment a CTL response. Vaccination was further associated with a reduction of prostate-specific Ag velocity and molecular clearance of circulating micrometastases. Our findings provide a rationale for further development of hTERT-transfected DC vaccines in the treatment of prostate and other cancers.
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PMID:Telomerase mRNA-transfected dendritic cells stimulate antigen-specific CD8+ and CD4+ T cell responses in patients with metastatic prostate cancer. 1574 21


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