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)

The receptor binding properties and biologic actions of chemically deglycosylated-asialo human choriogonadotropin (AHF-hCG) were studied in human ovary and testis. In corpus luteum and testis homogenates, the relative binding affinity of AHF-hCG was two- to fourfold higher in the ovary and five- to tenfold higher in the testis than that of native hCG. When assayed for luteinizing hormone (LH)-like activity in granulosa-luteal cells from in vitro fertilization patients and in testicular minces from patients undergoing orchiectomy for prostatic cancer, AHF-hCG did not stimulate cyclic adenosine monophosphate production. When added with hCG to granulosa-luteal cells or to testicular minces, AHF-hCG inhibited hCG-stimulated cyclic adenosine monophosphate production. These results indicate that the enhanced affinity to LH receptor caused by removal of the sugar moieties from hCG is associated with total inability to activate granulosa-luteal and Leydig cell adenylate cyclase, and that AHF-hCG is, in the human gonad, an hCG antagonist.
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PMID:Receptor binding properties and biologic action of deglycosylated human chorionic gonadotropin in human ovary and testis. 360 Dec 78

We have utilized the technique of lectin-loading of SDS gels with iodinated concanavalin A and wheat germ agglutinin to identify glycoproteins in prostatic and seminal fluids as well as in prostate tissue fractions. The following subunits which bound both lectins were detected: (a) 50, 43 and 38 kDa subunits common to prostatic and seminal fluids, and an additional 55 kDa subunit which predominates only in prostatic fluid; (b) 78, 55, 50 and 43 kDa subunits in prostatic tissue cytosol and (c) 195, 170, 135, 116 and 95 kDa subunits present in the particulate fractions of prostatic tissue. Immunoblotting using specific rabbit antibodies revealed the 50 kDa band to be prostatic acid phosphatase and the 38 kDa band to be prostate-specific antigen. Interestingly, antibodies directed toward prostatic acid phosphatase were found to cross-react with the 43 kDa band. Fractionation on sucrose gradients showed that several of these particulate glycoproteins were associated with a vesicle fraction enriched in adenylate cyclase activity, implying that they are plasma membrane glycoproteins. Comparison of soluble and particulate fractions of normal and cancerous tissue homogenates was made by densitometric scanning of autoradiograms of lectin-loaded gels. Similar relative intensities of lectin-binding were obtained for corresponding proteins in normal and cancerous tissue fractions. Also, immunoblotting showed no differences in prostatic acid phosphatase or prostate-specific antigen between normal and cancerous soluble homogenate fractions. Our results suggest that major lectin-binding proteins are conserved in the transition from normal to cancerous tissue. These results may be useful in developing a multiple-marker profile of metastatic prostate cancer and for the design of imaging agents, such as monoclonal antibodies, to prominent soluble and particulate prostate glycoproteins.
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PMID:Identification of structural and secretory lectin-binding glycoproteins of normal and cancerous human prostate. 639 53

The trypanocidal drug, suramin, has been shown to possess antitumour activity, both in vitro and in vivo. Its mechanism of action, however, remains unclear although an effect on signal transduction has been proposed. We therefore studied the in vitro effect of suramin on protein kinase C (PKC), on adenylate cyclase and on the intracellular calcium concentrations [Ca2+]i in human cancer cell lines. Ca(2+)- and phospholipid-dependent PKC was isolated from a normal rat spleen, and compared with that of the human cancer cell lines MCF-7 (breast cancer) and PC3 (prostate cancer). PKC was inhibited by 50% at 55, 40 and 27 microM suramin in the three PKC sources, respectively, while 300 microM of suramin gave 97, 95 and 99% inhibition. With 50 nM staurosporine, a known PKC inhibitor, we observed 80, 99 and 96% inhibition in these three different sources of PKC. Six day exposure of these cell lines to suramin, causing 50% growth inhibition, decreased the Ca(2+)- and phospholipid-dependent PKC activity in MCF-7 cells to 52% of the control and in PC3 cells to 48% at equitoxic concentrations (45 and 150 microM suramin, respectively). These concentrations of suramin slightly increased (approximately 2-fold) the adenylate cyclase activity in MCF-7 cells, but not in PC3 cells. In MCF-7 and PC3 cells, we measured the [Ca2+]i using Fura-2 fluorescence and observed a decrease in MCF-7 cells from 126 to 99 nM when the cells were exposed for 6 days to 45 microM suramin. In PC3 cells, [C2+]i decreased from 131 to 117 nM after exposure to 150 microM suramin. In conclusion, suramin inhibited the Ca(2+)- and phospholipid-dependent PKC activity in both cell lines in a dose-dependent manner. Only in the more sensitive MCF-7 cell line was a significant effect of suramin on intracellular Ca2+ and adenylate cyclase observed, indicating that one of the mechanisms of action of suramin could be mediated by perturbations of intracellular signalling pathways.
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PMID:Effect of suramin on adenylate cyclase and protein kinase C. 791 97

Neuroendocrine (NE) differentiation within prostate tumors is proposed to be a contributing factor in disease progression. However, the cellular origin and molecular mechanism controlling differentiation of prostatic NE cells are unresolved. The prostate tumor cell line, LNCaP, can reversibly acquire many NE characteristics in response to treatment with beta-adrenergic receptor agonists and activators of adenylate cyclase. In this study, we demonstrate that these treatments induce protein kinase A (PKA) activation in LNCaP cells and that ectopic expression of a constitutively activated form of the PKA catalytic subunit, CIalpha, results in acquisition of NE characteristics, including the extension of neuritic processes, cessation of mitotic activity, and production of neuron-specific enolase. Forskolin-, epinephrine-, and isoproterenol-dependent NE differentiation of LNCaP cells was significantly inhibited by expressing a dominant negative mutant of the PKA regulatory subunit, RIalpha. These results demonstrate that prostatic NE differentiation in response to these agents depends on PKA activation, and this signaling pathway may provide a therapeutic target for treating advanced forms of prostate cancer.
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PMID:Activated 3',5'-cyclic AMP-dependent protein kinase is sufficient to induce neuroendocrine-like differentiation of the LNCaP prostate tumor cell line. 1078 3

The molecular mechanisms involved in differentiation of prostate cancer cells to a neuroendocrine (NE) cell phenotype are not well understood. Here we used the androgen-dependent human prostate cancer cell line LNCaP to perform a systematic and broad analysis of the expression, pharmacology, and functionality of vasoactive intestinal peptide (VIP)/pituitary adenylate cyclase-activating peptide (PACAP) receptors. Reverse transcription polymerase chain reaction experiments, together with pharmacological approaches with a set of specific agonists and antagonists, demonstrated the presence of the three VIP/PACAP receptor subtypes (PAC1, VPAC1, and VPAC2 with a major role for VPAC1, acting through adenylate cyclase (AC) stimulation. An essentially similar pattern was observed by NE differentiated cells (4 days after serum deprivation) in spite of the important morphological changes observed. However, the expression of the prostate-specific antigen (PSA) decreased in NE cells (and increased again by dihydrotestosterone, DHT, treatment). The present demonstration of the induction of NE transdifferentiation in LNCaP cells by increasing concentrations of VIP adds value to previous observations on the role of cAMP in this process, an interesting topic in the comprehension of the molecular changes that are involved in the progression of prostate cancer to androgen independence.
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PMID:Neuroendocrine differentiation of the LNCaP prostate cancer cell line maintains the expression and function of VIP and PACAP receptors. 1172 28

The regulatory (R) subunits of cAMP-dependent protein kinase (PKA) are implicated in the regulation of cell proliferation and differentiation. There are two isoforms of PKA that are distinguished by two types of R subunit, RI and RII. Evidence suggests that RI is associated with proliferation and RII is associated with cell differentiation. Previous work in this laboratory has demonstrated that depletion of the RIalpha subunit by treatment with an antisense oligonucleotide (ODN) induces differentiation in leukemia cells and growth arrest and apoptosis in epithelial cancer cells. Using the prostate cancer cell line PC3M as a model system, we have developed a cell line that overexpresses a retroviral vector construct containing the RIalpha antisense gene. This cell line has been characterized and the effectiveness of the construct determined. In the work presented here, we demonstrate by immunocytochemistry that treatment with RIalpha antisense ODN induces translocation of the Calpha subunit of PKA to the nucleus of PC3M prostate cancer cells. The translocation of Calpha triggered by exogenous antisense ODN treatment mirrors that observed in cells endogenously overexpressing the antisense gene. Triggering the nuclear translocation of the Calpha subunit of PKA in the cell may be an important mechanism of action of RIalpha antisense that regulates cell growth independent of adenylate cyclase and cellular cAMP levels. The nuclear localization of the Calpha subunit of PKA may be an essential step in revealing the mechanism whereby this critical kinase regulates cell growth.
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PMID:Nuclear translocation of the catalytic subunit of protein kinase A induced by an antisense oligonucleotide directed against the RIalpha regulatory subunit. 1175 85

The LNCaP cell line is a versatile and useful model suitable for the study of human prostate cancer in vitro. It has been determined that the elevation of LNCaP intracellular cyclic adenosine monophosphate (cAMP) levels through the addition of membrane-permeable cAMP analogs, phosphodiesterase inhibitors, adenylate cyclase activators, or components of the cAMP signal-transduction pathway can induce reversible neuroendocrine (NE) differentiation. Elucidation of those genes that are differentially expressed between undifferentiated prostate cancer cells and prostate cancer cells that have been induced to differentiate may present new insights into the molecular mechanisms governing NE differentiation, early detection of prostate cancer, and potential targets for gene therapy. In this study, differential display polymerase chain reaction (PCR) was used to identify 226 differentially expressed PCR products. Twelve of the differential display PCR products were confirmed by Northern blot analysis and were cloned. DNA sequencing and database comparisons were performed. To our knowledge, this is the first report of the use of differential gene expression techniques to analyze gene expression during cAMP-induced NE differentiation in LNCaP cells. Confirmation of NE differentiation reversibility also was accomplished.
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PMID:Identification of differentially expressed genes during cyclic adenosine monophosphate-induced neuroendocrine differentiation in the human prostatic adenocarcinoma cell line LNCaP. 1181 1

The presence, expression and distribution of pituitary adenylate cyclase-activating peptide (PACAP) in human prostate cancer and healthy tissue were investigated by means of biochemical and morphological procedures. Reverse transcription-polymerase chain reaction (RT-PCR) analysis demonstrated the presence of its precursor encoding mRNA in both normal and pathological conditions (amplification products with 577 or 226 bp were identified). Immunochemistry using an appropriate antibody served to detect in both classes of tissues a 19.9-kDa product corresponding to the PACAP preproprotein and another protein of 14.6 kDa that may represent a product partially processed by convertases. However, a 5-kDa band characteristic of PACAP-38 peptide was not observed. Immunohistochemistry on tissue sections indicated the location of PACAP in the epithelial layer of prostate glands (and in some scarce leucocytes) but not in the stroma, either in normal or carcinomatous tissues. No clear differences could be established when comparing samples from patients with different tumor Gleason grades. These results are the first demonstration of the localization of PACAP or its precursors and its mRNA in the human prostate gland and their presence during the progression of prostate carcinoma.
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PMID:Expression and distribution of pituitary adenylate cyclase-activating peptide in human prostate and prostate cancer tissues. 1246 4

Elevations of intracellular cAMP in human prostate cancer cells have been shown to increase invasiveness and to promote neuronal differentiation. Since neuroendocrine peptides capable of activating adenyl cyclase are present in prostatic nerves and epithelial neuroendocrine cells, we investigated normal and malignant human prostate cells for changes in intracellular cAMP in response to the prostatic peptides vasoactive intestinal peptide (VIP), calcitonin (CT), and calcitonin gene-related peptide (CGRP). Normal prostate epithelial cells and LNCaP prostate cancer cells exhibited, respectively, 6- and 30-fold increases in intracellular cAMP in response to VIP. ALVA-31 and PPC-1 prostate cancer cells demonstrated 20- to 200-fold increases in cAMP in response to CGRP, while normal epithelial cells and LNCaP cells exhibited smaller (2- to 6-fold) responses. Only DU-145 cells increased cAMP substantially in response to CT. VIP receptor mRNA was identified by Northern blot analysis only in those cells that responded to VIP. CT receptor mRNA was identified only in DU-145 cells by polymerase chain reaction and Southern blot analysis. These results suggest that VIP and possibly CGRP receptors are likely to be present in both normal and malignant prostate cells. VIP or CGRP may regulate secretion of proteases by normal or prostate cancer cells and may influence epithelial cell differentiation.
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PMID:Neuroendocrine peptides stimulate adenyl cyclase in normal and malignant prostate cells. 1250 13

We investigated the effect of the vasoactive intestinal (VIP) and pituitary adenylate cyclase activating peptides (PACAP) on the production of interleukin-6 (IL-6) in normal prostate epithelial and stromal cells and prostate cancer cells. We performed RT-PCR analysis to assess the expression of VIP receptor (VPAC1, VPAC2 and PAC1) mRNA in normal prostate epithelial and stromal cells and prostate cancer cells, and investigated the effect of VIP and PACAP on the production of IL-6. VPAC1, VPAC2 and PAC1 receptor mRNAs were expressed in LNCaP and DU-145/AR prostate cancer cells and PrEC cells (prostate epithelial cells). VIP stimulated the production of IL-6 in DU-145/AR prostate cancer and PrEC cells. PACAP showed a similar effect on IL-6 production in PrEC cells. VIP stimulated IL-6 promoter transcriptional activity in DU-145/AR cells. These results indicate that VIP and PACAP may modulate the IL-6 production of normal prostate epithelial and prostate cancer cells.
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PMID:Vasoactive intestinal peptide and pituitary adenylate cyclase activating polypeptide stimulate interleukin-6 production in prostate cancer cells and prostatic epithelial cells. 1587 Sep 45


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