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)

Previous studies have demonstrated that androgen responsive human prostate cancer cells can be induced to undergo programmed cell death after androgen ablation. By contrast, androgen-independent human prostate cancer cells do not activate this apoptotic pathway in response to androgen ablation. In the present study, two androgen-independent human prostatic cell lines, PC-3 and DU-145, were used as in vitro model systems to investigate the possibility of induction of programmed cell death in response to non-androgen ablative cytotoxic drugs. Treatment of these cells with the fluorinated pyrimidines, 5-fluoro-2-deoxyuridine or trifluorothymidine, resulted in a significant decrease in cell viability, over a period of 96 hr of exposure to the drugs, as determined by the trypan blue exclusion assay. The characteristic DNA fragmentation into a nucleosomal ladder and induction of expression of specific apoptosis-related genes, such as TRPM-2/SGP-2, and TGF-beta 1, but not the growth-related genes, c-myc, c-fos, and p53, temporally correlated with activation of apoptotic cell death in both systems. Simultaneous treatment with exogenous thymidine completely abrogated the fluoropyrimidine-induced cytotoxic effect in both cell lines, as well as the nucleosomal fragmentation of DNA, indicating that this apoptotic process is due to the induction of "thymineless" state. These results suggest that androgen-independent human prostate cancer cells retain the ability to activate the apoptotic cascade, after treatment with cytotoxic drugs that induce a "thymineless" state.
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PMID:Induction of apoptosis in androgen-independent human prostate cancer cells undergoing thymineless death. 803 80

Prostate adenocarcinoma, the most common tumor occurring among North American men, preferentially metastasizes to bone, where it characteristically forms osteoblastic lesions. The following growth regulatory factors are expressed in some human prostate cancers and/or established cell lines: epidermal growth factor (EGF), transforming growth factor alpha, transforming growth factor beta, basic fibroblast growth factor (bFGF), and insulin-like growth factor. Some of these, especially EGF, bFGF, and TGF-beta, are also implicated in growth regulation in normal and benign hyperplastic prostates. Although evidence from in vitro study of the small number of prostate cell lines available demonstrates that these growth regulatory pathways are exploited by some of these cells, direct in vivo evidence is limited. The development of human prostate cancer cell lines which grow and metastasize in immune-deficient rodents is an advance which now permits experimental analysis of the role of these growth factors in prostatic metastasis, particularly to bone. The progression and metastasis of human prostate cancer results from the complex interactions of multiple growth factors, androgens, and cellular communication, which form a dynamic network. Continued progress in the study and treatment of this disease will require new conceptual frameworks as well as successful application of the techniques of molecular and cellular biology.
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PMID:Growth factors and their receptors as determinants in the proliferation and metastasis of human prostate cancer. 828 14

Transforming growth factor beta-1 (TGF-beta 1) has been proposed as a mediator of tumour growth in a number of tumours and cell lines including prostate, and in a recent study was shown to be up-regulated in the stroma of breast cancer tissue following treatment with the anti-oestrogen tamoxifen. Immunolocalisation of the intracellular form of TGF-beta 1 confirmed that the source of the stromal TGF-beta 1 was the peritumoral fibroblasts. We present here the results of a study in which five patients with hormonally unresponsive prostatic carcinoma and seven patients responding to a luteinising hormone-releasing hormone analogue had prostate biopsies taken before and during treatment. These were stained for TGF-beta expression prior to treatment and at either relapse or 3 months later respectively. Six of seven clinically responding tumours and three of five relapsed tumours showed up-regulation of extracellular TGF-beta 1, again primarily in the stroma, with no apparent up-regulation of intracellular TGF-beta 1, TGF-beta 2 or TGF-beta 3. These data illustrate that the epithelial growth inhibitor TGF-beta 1 can be induced by hormonal manipulation in prostate cancer in vivo, and may continue to be up-regulated even after relapse. This suggests that relapse of hormonally treated prostate cancer may be associated with a failure of the epithelium to respond to stromal TGF-beta 1.
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PMID:Induction of transforming growth factor beta in hormonally treated human prostate cancer. 828 94

Suramin has recently surfaced as a potential antineoplastic agent on the basis of its ability to exert a cytostatic effect on human prostate carcinoma cells. Radiotherapy for the treatment of prostate cancer has long been known as an alternative medical therapeutic approach, but the molecular mechanism involved in radiation-induced toxicity in prostatic tumors is poorly defined. In these studies, the antitumor effect of suramin and irradiation, either as individual treatments or in combination, was investigated in human prostate cancer cells. Two androgen-independent prostate cancer cell lines, DU-145 and PC-3, were used as in vitro model systems to study the underlying molecular mechanisms of these two therapeutic modalities. A cytostatic effect on cell growth was observed when cells were exposed to suramin alone, while treatment with irradiation alone resulted in significant cell death as determined by the Trypan blue exclusion assay. Suramin treatment prior to irradiation inhibited this radiation-induced cell death. In contrast, exposure of cells to suramin following irradiation enhanced the cytotoxic effect of ionizing radiation. Temporal analysis of the molecular events involved in radiation-induced toxicity revealed the characteristic fragmentation of DNA into a nucleosomal ladder (a hallmark of apoptosis) and enhanced expression of specific programmed cell death-associated genes (TRPM-2 and TGF-beta), preceding the dramatic decrease in cell number. These results indicate that radiation-induced cell death proceeds via the apoptotic pathway. Further studies have demonstrated that activation of programmed cell death by ionizing radiation is substantially inhibited by pretreatment of the cells with suramin. This study suggests that the relative timing of this combination treatment may have significant therapeutic implications in the treatment of advanced prostate cancer.
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PMID:Combined antitumor effect of suramin plus irradiation in human prostate cancer cells: the role of apoptosis. 841 47

Transgenic model systems provide tools for obtaining information that clarifies important relationships between genetic alterations and carcinogenesis. One such relationship is the induction of specific growth factor activities by dominantly acting oncogenes. Using a "transgenic organ" model referred to as mouse prostate reconstitution (MPR) under conditions where the ras and myc oncogenes were introduced using a recombinant retrovirus into both the mesenchymal and epithelial compartments of the urogenital sinus, poorly differentiated prostate cancer (PC) was produced with high frequency (> 90%) in inbred C57BL/6 mice. Time-course studies using northern blotting and immunohistochemical analysis showed that the transition from benign to malignant status invariably was associated with the induction of elevated transforming growth factor-beta 1 (TGF-beta 1) expression. Additional immunohistochemical analysis of TGF-beta 1 in human PC and benign prostatic hyperplasia (BPH) showed that positive extracellular staining was significantly more extensive in PC compared with BPH. This differential staining pattern was evident in focal areas of PC adjacent to BPH. These findings in both the MPR model system and human PC suggest that elevated TGF-beta 1 expression is involved in the progression to malignancy and that its pattern of expression may become a useful marker of PC. Additional studies using transgenic animal models will continue to provide important clinically useful information about PC in man.
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PMID:Transgenic models for the study of prostate cancer. 842 40

Transforming growth factor beta 1 (TGF-beta 1), a potential regulator of growth of prostate cancer cells, exerts its effects through interaction with membrane receptors. In the present study, an attempt was made to establish a correlation between TGF-beta 1 sensitivity and TGF-beta receptor expression in three prostate cancer cell lines (PC3, DU145, and LNCaP). In a dose-dependent manner, TGF-beta 1 inhibited the proliferation of PC3 and DU145 cells but not LNCaP cells. Since TGF-beta signals through a heteromeric complex composed of TGF-beta receptors type II and type I, the expression of these receptors was investigated by Western blot analysis and reverse transcriptase-PCR. These studies demonstrated that all three prostate cancer cell lines express type II receptor. In contrast, type I receptor was detected only in the TGF-beta 1-sensitive PC3 and DU145 cells but not in the TGF-beta 1-insensitive LNCaP cells. To investigate the possibility that the undetectable expression of type I receptor in LNCaP cells is due to a change in the respective gene, Southern blot analysis was performed. The result demonstrated that there was a genetic change in type I receptor gene in these cells. Subsequently, when LNCaP cells were transiently transfected with T beta R-I cDNA, sensitivity to TGF-beta 1 was restored. These observations indicate that LNCaP cells contain a defective T beta R-I gene which rendered these cells insensitive to the action of TGF-beta 1.
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PMID:Genetic change in transforming growth factor beta (TGF-beta) receptor type I gene correlates with insensitivity to TGF-beta 1 in human prostate cancer cells. 854 72

Transforming growth factor-beta 1 (TGF-beta 1) and androgen are potential physiological regulators of prostate cancer cells. In the present study, we have used LNCaP cells as a model of androgen-responsive prostate cancer to investigate the effects of dihydrotestosterone (DHT) on the sensitivity to TGF-beta 1. The ability of LNCaP cells to respond to TGF-beta has been controversial. In some studies, LNCaP cells were insensitive to TGF-beta 1 while, in others, they were sensitive to the growth inhibitory effect of TGF-beta 1. The present study was carried out to establish androgenic conditions that rendered LNCaP cells sensitive to TGF-beta 1. Cells were cultured in phenol-red-free RPMI 1640 medium supplemented with 10% charcoal-stripped fetal bovine serum. DHT was added at the following concentrations: 0, 10(-12), 10(-10), and 10(-7) M. These concentrations were selected because they represent the zero DHT control, the low-proliferative dose, the high-proliferative dose, and the growth-arrest dose, respectively. The effects of TGF-beta 1 observed on LNCaP cells included inhibition of cell proliferation, decrease in cell viability, alteration in cell morphology, and enhancement of gene transcriptional activity through activation of a TGF-beta responsive promoter. Of the various DHT concentrations investigated in this study, these effects of TGF-beta 1 on LNCaP cells were consistently demonstrated only at 10(-10) M. At other concentrations, the effects of TGF-beta 1 were either minimal or undetectable. Accompanying these effects of TGF-beta 1, a low but statistically significant level of TGF-beta 1-specific binding and an increased protein level of TGF-beta receptor type II were detected by a competitive binding assay and Western blot analysis respectively. These results indicate that LNCaP cells can be induced by DHT to respond to TGF-beta 1 and that DHT modulates the sensitivity to TGF-beta 1 and the level of TGF-beta receptor type II in these cells.
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PMID:Modulation of sensitivity to transforming growth factor-beta 1 (TGF-beta 1) and the level of type II TGF-beta receptor in LNCaP cells by dihydrotestosterone. 854 51

We have studied the response to oestrogen and expression of oestrogen receptors in responsive LNCaP and androgen non-responsive PC3 human prostate cancer cell lines. Growth of LNCaP cells is significantly stimulated by physiological concentrations of oestradiol; this growth increase appears to be comparable to that induced by either testosterone or dihydrotestosterone. In contrast, oestradiol significantly inhibits the proliferation of PC3 cells. We also present novel evidence for functional oestrogen binding in LNCaP cells. This evidence was first obtained by means of radioligand binding assays and was further corroborated using: (a) immunocytochemical analysis of oestrogen and progesterone receptors; (b) reverse transcriptase polymerase chain reaction of oestrogen receptor mRNAs; and (c) immunofluorescence of the 27 kDa heat shock protein (Hsp27), which has been reported to be a marker of functional oestrogen receptors. There appeared to be significantly and consistently lower levels of oestrogen receptor expressed in PC3 cells than in LNCaP cells. The observation that oestradiol-induced growth of LNCaP cells is completely reversed by the pure anti-oestrogen ICI 182,780 clearly implies that the biological response of these cells to oestradiol is mediated mainly via its own receptor. On the other hand, use of a neutralizing antibody against transforming growth factor (TGF)-beta 1 results in a remarkable increase in the growth of PC3 cells; this effect is almost completely abolished after the addition of oestradiol. This suggests that the oestradiol-induced growth inhibition may be mediated by TGF-beta 1. These results suggest that the current model for hormone-dependence of human prostatic carcinoma should be revised. This is of special concern, because recent data indicate that prostate cancer has become the most prevalent cancer and the second principal cause of cancer death in western countries.
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PMID:Human prostate cancer: a direct role for oestrogens. 858 3

We have identified a new antiproliferative activity from the conditioned medium of two androgen-independent prostatic cancer cell lines, PC3 and DU-145. This antiproliferative activity selectively inhibited cell proliferation of an androgen-dependent prostate cancer cell line LNCaP in a dose-dependent manner. No antiproliferative activity was observed against mouse fibroblast 3T3, normal human lymphocytes, human leukemic cells, including promyelocyte HL-60 or T cell HUT-78, or human adenocarcinoma cell lines, including prostatic cells JCA-1, ovary NIH:OVCAR-3, cervix C-33A, or breast MDA-MB-231. Cell cycle analysis revealed that the antiproliferative activity did not induce apoptosis in LNCaP cells, but it prevented some G1 LNCaP cells from entering into the S phase of the cell cycle. The antiproliferative activity was sensitive to high temperature (100 degrees C) and to proteinase digestion; however, it was resistant to 56 degrees C, pH 2.0, and reducing agent treatment, as well as to DNase and RNase digestion. The antiproliferative activity was partially purified by gel filtration, ion-exchange chromatography, and SDS-PAGE, with an apparent molecular weight of 50 kD. The antiproliferative activity was not affected by neutralizing antibody against TGF-beta 1,2,3, TNF-alpha, PDGF, EGF, IL-1, IL-2, IL-3, IL-4, or IL-6.
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PMID:Antiproliferative effect of a prostatic cell-derived activity on the human androgen-dependent prostatic carcinoma cell line LNCaP. 859 Mar 22

Recently, cases of liver damage and liver tumors have been reported after treatment of prostate cancer patients with the antiandrogen cyproterone acetate (CPA). In rat liver, CPA initiates a wave of DNA synthesis that is accompanied by apoptosis. In apoptotic hepatocytes, a latent form of transforming growth factor beta 1 (TGF-beta 1) is detectable by immunohistochemistry. Injection of a single dose of TGF-beta 1 induces apoptosis in the liver of animals pretreated with CPA but has an insignificant effect in untreated animals. In this study, we show by Northern analysis that there is increased expression of TGF-beta 1 in the liver after CPA treatment. Detection of TGF-beta 1 with in situ hybridization showed that TGF-beta 1 was synthesized in the parenchymal cells. Time course and dose-response experiments performed 48 hours after the last application of CPA showed that apoptotic nuclei with chromatin condensed at the nuclear periphery (AN) were already visible 2 hours after injection (0.13%), and apoptotic bodies (ABs) increased 2 to 9 hours after the injection (from 1.28% to 6.67%) after 25 micrograms TGF-beta 1/kg. At 4.5 hours after injection, an induction of apoptosis could be detected with 0.25 microgram TGF-beta 1/kg and after the maximum dose (250 micrograms TGF-beta 1/kg) ANs (0.24%) and ABs (16.74%) were homogeneously distributed throughout the liver lobe. Irrespective of the dose or time after injection of TGF-beta 1, 82% of the ABs were localized within hepatocytes. Liver enzymes were detected in high amounts in the serum (eightfold elevation of glutamate dehydrogenase, fivefold elevation of alanine transaminase [ALT]) 7 hours after the first visible sign of apoptosis. After an additional 20 hours, the liver contained many necrotic figures. These results suggest that the combination of TGF-beta 1 expression coupled with a strikingly enhanced sensitivity to the induction of apoptosis could be responsible both for the liver damage and the development of liver tumors observed after treatment with CPA.
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PMID:The antiandrogen cyproterone acetate induces synthesis of transforming growth factor beta 1 in the parenchymal cells of the liver accompanied by an enhanced sensitivity to undergo apoptosis and necrosis without inflammation. 859 60


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