UMLS:C0376358 - FACTA Search

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

The objective of the present study was to characterize the binding and functional properties of endothelin (ET) receptor subtypes in the human prostate. Human prostatic tissue was obtained from male subjects undergoing radical prostatectomy for low-volume prostate cancer. The optimal assay conditions for characterizing human prostatic ET-1 binding sites on slide-mounted tissue sections were defined. Maximal specific 125I-ET-1 binding was achieved after a 10-min preincubation, a 120-min incubation, and a washing procedure that consisted of a brief rinse and a 1-min wash. The mean equilibrium dissociation constant (Kd) and density (Bmax) of ET-1 binding sites determined from six saturation studies were 0.72 +/- 0.13 nM and 40.4 +/- 6.9 fmol/mg of wet weight, respectively. The mean Hill coefficient was 0.99 +/- 0.01, indicating that 125I-ET-1 identifies a single population of binding sites. The pharmacology of 125I-ET-1 binding sites was characterized using competitive binding experiments. The competition plots for ET-1 were best fit by a one-binding site model, whereas the plots for sarafotoxin 6C (S6C) and BQ123 were consistently best fit by a two-site model. The mean Ki value of ET-1 was 0.34 +/- 0.12 nM. The mean Ki values for the high and low affinity S6C binding sites were 0.50 +/- 0.09 nM and 0.84 +/- 0.28 microM, respectively. The mean Ki values for the high and low affinity BQ123 binding sites were 5.51 +/- 1.05 nM and 24.9 +/- 6.5 microM, respectively. The ratio of ETA to ETB binding sites was approximately 2:1. The ET receptor subtype mediating prostatic smooth muscle tension was investigated using agonist-antagonist competition studies. ET-1, a nonselective ET agonist, elicited a potent contraction of prostate smooth muscle. The pA2 of BQ123 for inhibiting ET-1-mediated contraction was 6.84. S6C, a selective ETB agonist, also elicited a potent contraction of prostate smooth muscle. BQ123 at concentractions between 0.1 and 10 microM did not shift the S6C dose-response curve. These functional studies suggest that both ETA and ETB receptors mediate the tension of prostate smooth muscle. Endogenous ETS may be involved in the pathophysiology of bladder outlet obstruction in men with benign prostatic hyperplasia. If this is the case, then ET antagonists may represent effective treatment for benign prostatic hyperplasia.
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PMID:Binding and functional properties of endothelin receptor subtypes in the human prostate. 811 78

The objective of the present study was to localize endothelin receptors in the human prostate using quantitative autoradiography. Slide-mounted tissue sections 20 microns. in thickness were obtained from the transition zones of seven patients undergoing radical prostatectomies for low volume prostate cancer. Sarafotoxin (S6C) and BQ123 have been used to distinguish endothelin receptor subtypes (ETA and ETB). The prostatic tissue sections were incubated in four different stock solutions containing the following: 0.1 nM. 125I-endothelin-1 (125I-ET-1) (total ET-1 binding); 0.1 nM. 125I-ET-1 and 100 nM. S6C (total ETA binding); 0.1 nM. 125I-ET-1 and 1 microM. BQ123 (total ETB binding); and 0.1 nM. 125I-ET-1 and 1 microM. ET-1 (nonspecific ET-1 binding). Nonspecific binding accounted for only 12 and 15% of total 125I-ET-1 binding in the stroma and glandular epithelium. Autoradiograms were quantitatively analyzed using a computerized image analysis system. Specific radioactive densities (nCi/mg.) were determined for the stromal and glandular epithelial elements of the prostate. The specific radioactive densities of ETA and ETB binding sites in the stroma were 7.57 +/- 0.65 and 2.98 +/- 0.81. The specific radioactive densities of ETA and ETB binding sites in the glandular epithelium were 1.59 +/- 0.15 and 7.87 +/- 1.35. The present study demonstrates that the predominant endothelin receptors in the stroma and glandular epithelium are the ETA and ETB subtypes, respectively.
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PMID:Localization of endothelin receptors in the human prostate. 830 2

Increasing evidence indicates that endothelin 1 (ET-1) is implicated in prostate tumour progression. However, data on ET-1 regulation in human prostate and prostate cancer cell lines are lacking. In this study, regulation of ET-1 and its precursor big ET-1, using PC3 cells, a human bone metastatic prostatic carcinoma cell line, was addressed. ET-1 and big ET-1 assays demonstrated greater secretion of both peptides in the presence of 10% fetal calf serum (FCS) as compared with 0.5% FCS. Incubation of PC3 cells in the absence and presence of various cytokines and growth factors known to be implicated in prostate stroma-epithelium interactions, revealed that IL-6, FGF7/KGF and FGF2/bFGF had no effect on ET-1 and big ET-1 secretion, whereas interleukin 1beta (IL-1beta), tumour necrosis factor alpha (TNF-alpha) and transforming growth factor beta (TGF-beta) stimulated their secretion in a concentration-dependent manner. Binding experiments indicated the presence of specific ET-1 receptors in PC3 cells: Kdapp = 1.1 x 0.2 x 10(-10)M, Bmax = 2660 +/- 390 sites/cell. Data analysis demonstrated the presence of only the ETA receptor subtype in PC3 cells. In conclusion, our results indicate that the implication of ET-1 in prostate cancer is likely to be mediated via paracrine/autocrine control of cell factors.
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PMID:Upregulation of endothelin 1 and its precursor by IL-1beta, TNF-alpha, and TGF-beta in the PC3 human prostate cancer cell line. 1008 38

The endothelins, a family of potent vasoconstricting peptides, have been implicated in the pathophysiology of advanced prostate cancer. Two endothelin receptors, ET-A and ET-B are found in normal prostate tissue. Malignant prostate cells are notable for the loss of ET-B receptors and increased levels of endothelin-1 [ET-1]; this distortion of the endothelin system may be a significant factor in the progression of prostate cancer. Proposed roles for endothelin in prostate cancer include growth promotion, apoptosis inhibition, bone formation, and stimulation of nociceptive receptors. ET-1 can act alone as a mitogen, but its effects are greatest as a comitogen with a variety of growth factors, including basic fibroblast growth factor, insulin-like growth factors, and platelet derived growth factor. Although their exact functions are unclear, ET-1, in conjunction with vascular endothelial growth factor, appears to play a major role in tumor angiogenesis. By a variety of methods, ET-1 alters the balance of osteoblast and osteoclasts to the favor new bone formation that is characteristic of metastatic disease. Several studies indicate that the refractory pain of metastatic cancer is related to the direct nociceptive effects ET-1. These findings suggest that ET receptors are promising therapeutic targets for pharmacologic intervention. Early clinical trials indicate that the ET-A receptor antagonist used in prostate cancer is reasonably well tolerated with mild but pervasive symptoms related to ET-1's vasoconstrictive effects. Results of ongoing clinical trials are eagerly awaited in order to see if the hypothetical promise of ET antagonism will result in clinical success.
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PMID:Endothelin-1 as a target for therapeutic intervention in prostate cancer. 1209 77

Endothelin (ET) plays a pivotal role in the pathogenesis of cell growth disorders such as cancer. Atrasentan (ABT-627), a selective antagonist for the ET receptor A (ET(A)), has shown benefit in controlling disease progression in men with hormone refractory prostate cancer who have undergone aggressive hormone ablation therapy. It is not known how hormone ablation affects ET-binding sites, although ET-1 and ET(A) expression are found to be elevated in prostate cancer patients. In this study, we examined the effect of castration on ET receptor binding in male beagle dogs. Three dogs were surgically castrated and another three sham-operated. The animals were sacrificed 1 week after operation and membranes were prepared from the prostate, heart, brain, kidney, liver and lung for ET-1, ET-3 and angiotensin II (A-II, as a control) binding studies. No significant difference in A-II binding was observed between castrated and sham-operated animals. However, ET-1 and ET-3 binding to prostate and brain membranes were altered significantly. From saturation binding studies using ET-1 in the prostate, the K(d) and B(max) values increased from 0.043 nM and 0.094 pmol/mg respectively in sham-operated dogs to 0.104 nM and 0.311 pmol/mg respectively in castrated animals. These results indicate that surgical castration in dogs produces a change in the ET receptor density in the prostate and brain, and may have implications for the effect of hormone ablation therapy on ET receptor expression in prostate cancer patients.
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PMID:Effect of castration on endothelin receptors. 1219 41

Endothelins (ET-1, ET-2 and ET-3) are 21-amino-acid peptides with two disulfide bonds that belong to the sarafotoxin family. ET-1, ET-2 and ET-3 are produced endogenously from preproendothelin to give big endothelins, which are cleaved by endothelin-converting enzyme (ECE) to yield the active protein. Endothelin has been shown to play important physiological and pathological roles by interacting with its G-protein-coupled receptors. There are two cloned ET receptors: the ET(A) receptor, which is selective for ET-1, and the ET(B) receptor, which binds ET-1, ET-2 and ET-3 with similar affinities. Since the discovery of endothelin, and especially since the availability of peptide ET antagonists such as BQ-123 and BQ-788, and nonpeptide compounds such as bosentan, considerable effort has been spent on better understanding the role of endothelin and its receptor antagonists. As a result, endothelin has been implicated in a variety of serious diseases, such as congestive heart failure, hypertension, pulmonary hypertension and prostate cancer. Research in pharmaceutical and biotechnology laboratories has generated many endothelin antagonists with either sulfonamide or triaryl carboxylic acid scaffolds, and a number of ET(A)-selective or nonselective ET(A)/ET(B) endothelin antagonists have entered clinical trials. This article will review the small-molecule ET(A)-selective and nonselective ET(A)/ET(B) antagonists that are under clinical evaluation, and highlight a member of this group of compounds, sitaxsentan. A summary of the medicinal chemistry that led to the identification of sitaxsentan will be presented, followed by selected animal and human clinical trial data. (c) 2001 Prous Science. All rights reserved.
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PMID:Nonpeptide endothelin antagonists in clinical development. 1275 Jul 62

Endothelins (ET-1, 2 and 3) are 21-residue peptides with two disulfide bridges and a highly conserved carboxy terminal. ET-1, the most significant isoform, is a potent vasoconstrictor and mitogen that exerts its biological effects through binding to its two G protein-coupled receptors: ET(A) and ET(B). ET(A) receptors are expressed on vascular smooth muscle cells and mediate vasoconstrictive and proliferative responses to ET-1. ET(B) receptors are mainly located on endothelial cells where they clear ET-1 from circulation and mediate vasodilation via the release of nitric oxide. ET-1 has been associated with a variety of serious diseases such as pulmonary hypertension, heart failure, prostate cancer and renal dysfunction.
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PMID:Recently discovered sulfonamide-, acyl sulfonamide- and carboxylic acid-based endothelin antagonists. 1278 12

The endothelin (ET) axis represents a novel and exciting target in the treatment of prostate cancer. ET-1, acting primarily through the endothelin A receptor (ET(A)), is integrally involved in multiple facets of prostate cancer progression, including cell growth, inhibition of apoptosis, angiogenesis, development and progression of bone metastases, and mediation of pain responses. Clinical trials with the ET(A) antagonist, atrasentan, have demonstrated good tolerability, with the most common adverse events being headache, rhinitis, and peripheral edema. These trials have demonstrated statistically significant improvements in pain measures, prostate-specific antigen (PSA) kinetics, biologic markers of bone changes, and development of bone metastases. There have also been consistent improvements in time to progression, although not always statistically significant. Ongoing studies in a variety of patient populations will better define the role of ET receptor antagonists in the treatment of men with prostate cancer. In this article, we review the biology and pathophysiology of the ET axis in prostate cancer, critically analyze the major clinical trials reported to date, and discuss some emerging data and how it may impact the way we proceed in the future with the development of this class of drugs in prostate cancer.
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PMID:Endothelin receptor antagonists in the treatment of prostate cancer. 1457 15

Most evidence indicates that osteoblastic bone metastases are due to tumor-produced factors that stimulate the osteoblast. This review supports a causal role for ET-1. Based on our results, we propose a model to explain the tumor cell and bone interactions that are responsible for the osteoblastic response (Figure 2). Tumor cells housed in bone produce factors, such as ET-1, stimulate osteoblast activity. This results in the abundant and disorganized new bone formation that is characteristic of osteoblastic metastases. The effects of ET-1 to stimulate bone formation are mediated by ETA receptors on the osteoblast. ETA receptor inhibition successfully blocked osteoblastic bone metastases in a mouse model. These receptor antagonists are currently in clinical trials for advanced prostate cancer and bone metastases (Stephenson, 2001; Carducci et al., 2002; 2003). Therefore, the molecular mechanisms responsible for osteoblastic metastases are complex and involve bi-directional interactions between tumor cells and bone. Elucidation of the interactions at a molecular level can identify therapeutic targets for osteoblastic metastases. Although ET-1 and ETA receptors are potential targets for this devastating complication of cancer (Remuzzi et al., 2003), they are certainly not the only ones. The rapid pace of metastasis research, will not only expand our therapeutic armamentarium against bone metastases, but will also provide insight into achieving the ultimate goal: the prevention of cancer metastases to bone.
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PMID:Endothelins in bone cancer metastases. 1504 94

Perturbations of stromal-epithelial interactions in the developing tumour can contribute to cancer invasion and metastasis. The structurally related metallopeptidases endothelin-converting enzyme (ECE) and neutral endopeptidase (NEP) contribute sequentially to the synthesis and inactivation of ET-1, a mitogenic peptide that has been shown to affect tumour behaviour. This study has investigated the interaction between metastatic tumour epithelial cells, which lack NEP, and stromal cells, which we have shown to express ECE-1 (stromal-epithelial interactions), using Matrigel invasion chambers. The epithelial cell lines utilised in this study include androgen-sensitive LNCaP, androgen-independent PC-3, Du145 and recently established PNT-1a, PNT2-C2 and P4E6 prostate cell lines. Specific inhibition of endogenous ECE-1 activity in stromal cells reduced PC-3 and Du145 invasion by 70 and 50%, respectively. Addition of recombinant NEP to inactivate endogenous mitogenic peptides resulted in 50 and 20% reductions in invasion in PC-3 and Du145 cells, respectively. Neutral endopeptidase effects were reversed in the presence of thiorphan, a specific NEP inhibitor. Supplementation of defined media with bradykinin and ET-1 significantly increased PC-3 invasion by 40 and 50%, respectively. Du145 cell invasion increased by approximately 100% on adding ET-1. These studies implicate the metallopeptidases NEP and ECE-1 as mediators of prostate cancer invasion via a stromal/epithelial interaction.
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PMID:Stromal-epithelial interactions influence prostate cancer cell invasion by altering the balance of metallopeptidase expression. 1508 88

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