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)

Most of the conventional adenocarcinomas of the prostate display focal neuroendocrine (NE) differentiation at diagnosis, usually revealed by immunohistochemistry as solitary or clusters of cells, in the context of predominantly exocrine tumors. Even though the biological and clinical significance of NE differentiation in prostate cancer is still to be elucidated, NE phenotype is emerging as an important factor in the prognosis, evolution and progression of prostate cancer. It seems to be particularly relevant in facilitating prostate cancer progression during the ordinary androgen-suppression therapy (LHRH-analogs +/- anti-androgens). Several mechanisms have been identified: NE cells are androgen receptor negative, therefore they survive to androgen deprivation; NE cells produce peptides, hormones and growth factors which could stimulate proliferation [chromogranin (A-CgA), PTHrp, bombesin, etc.], inhibit apoptosis (Survivin) and stimulate neoangiogenesis [vascular endothelial GF (VEGF)] of the neighbouring exocrine prostate cancer cells. NE differentiation appears to be a dynamic phenomenon. The NE phenotype expression increases during androgen-deprivation therapy and results more elevated in hormone refractory than in hormone sensitive disease. Pre-clinical and clinical studies demonstrated a direct stimulation of NE differentiation by androgen-suppression therapy, resulting in a dramatic increase in the number of cells expressing NE markers. CgA appears to be the most sensitive marker and is most frequently used for detecting NE phenotype either at the tissue level or in the general circulation. Elevated plasma CgA levels are frequently observed in hormone-refractory disease and correlate with poor prognosis. Even in hormone refractory disease, NE differentiation is a time-dependent phenomenon and is not influenced by conventional antineoplastic treatments.
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PMID:The neuroendocrine phenotype in prostate cancer: basic and clinical aspects. 1662 64

The neuropeptides bombesin and endothelin-1 stimulate prostate cancer (PC) cell migration and invasion (J Clin Invest, 2000; 106: 1399-1407). The intracellular signaling pathways that direct this cell movement are not well delineated. The monomeric GTPase RhoA is required for migration in several cell types including neutrophils, monocytes and fibroblasts. We demonstrate that bombesin-stimulated PC cell migration occurs via the heterotrimeric G-protein-coupled receptors (G-protein) G alpha 13 subunit leading to activation of RhoA, and Rho-associated coiled-coil forming protein kinase (ROCK). Using siRNA to suppress expression of the three known G-protein alpha-subunit-associated RhoA guanine nucleotide exchange factors (GEFs), we also show that two of these RhoA GEFs, PDZ-RhoGEF and leukemia-associated RhoGEF (LARG), link bombesin receptors to RhoA in a non-redundant manner in PC cells. We next show that focal adhesion kinase, which activates PDZ-RhoGEF and LARG, is required for bombesin-stimulated RhoA activation. Neutral endopeptidase (NEP) is expressed on normal prostate epithelium whereas loss of NEP expression contributes to PC progression. We also demonstrate that NEP inhibits neuropeptide activation of RhoA. Together, these results establish a contiguous signaling pathway from the bombesin receptor to ROCK in PC cells, and they implicate NEP as a major regulator of neuropeptide-stimulated RhoA in these cells. This work also identifies members of this signaling pathway as potential targets for rational pharmacologic manipulation of neuropeptide-stimulated migration of PC cells.
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PMID:Neuropeptide-stimulated cell migration in prostate cancer cells is mediated by RhoA kinase signaling and inhibited by neutral endopeptidase. 1665 49

Neuroendocrine (NE)-like cells are hypothesized to contribute to the progression of prostate cancer by producing factors that enhance the growth, survival or metastatic capabilities of surrounding tumor cells. Many of the factors known to be secreted by NE-like cells, such as neurotensin (NT), parathyroid hormone-related peptide, serotonin, bombesin, etc., are agonists for G-protein-coupled receptors, but the signaling pathways activated by these agonists in prostate tumor cells are not fully defined. Identification of such pathways could provide insights into novel methods of treating late-stage disease. Using conditioned culture medium (CM) from LNCaP-derived NE-like cells (as a source of these agonists) or NT (a prototypical component of CM) to treat PC3 cells, we found that the epidermal growth factor (EGF) receptor (EGFR) was transactivated and that such activation was required for maximal PC3 cell mitogenesis, as measured by 5-bromo-2'-deoxy-uridine incorporation or cell number. NT also induced a time-dependent increase in EGFR Tyr(845) phosphorylation and phosphorylation of c-Src and signal transducer and activator of transcription 5b (Stat5b) (a downstream effector of Tyr(845)), events that were blocked by specific inhibition of c-Src (which mediates Tyr(845) phosphorylation of EGFR) or of EGFR. Introduction of mutant forms of EGFR (Tyr(845)) or Stat5b in PC3 cells, or treatment with selective, catalytic inhibitors of EGFR, c-Src and matrix metalloproteinases (MMPs) resulted in the loss of NT-induced stimulation of DNA synthesis, relative to wild-type controls. These data indicate that the mitogenic effect of NT on prostate cancer cells requires transactivation of the EGFR by MMPs and a novel downstream pathway involving c-Src, phosphorylation of EGFR Tyr(845) and activation of Stat5b.
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PMID:Neurotensin stimulates mitogenesis of prostate cancer cells through a novel c-Src/Stat5b pathway. 1686 79

Current hormone withdrawal therapies used for treatment of advanced prostate cancer lead to androgen-independent tumor growth. Increased prostatic neuroendocrine (NE) cell density has been implicated in promoting progression of prostate cancer, but the process by which this occurs remains unclear. The aim of this study was to determine whether there is an association of increased NE differentiation with neoadjuvant hormone therapy and Gleason grade. Using adjacently sectioned tissue microarrays, the expression profile of novel and known NE markers were monitored. L-Dopa decarboxylase (DDC), a catecholamine synthesis enzyme and androgen receptor (AR) coregulator protein, was identified as an additional NE marker of prostate cancer. Immunohistochemical analysis of DDC with the established NE markers, chromogranin A and bombesin, revealed a significant increase in NE differentiation after 6 months of hormone therapy and after progression to androgen independence but no apparent correlation with Gleason grade. In addition, dual immunofluorescence analysis revealed that approximately 55% of the mixed population of DDC- and chromogranin A-expressing NE cells continue to express AR. Taken together, these results suggest that the increase of NE differentiation in prostate cancers depends specifically on duration of hormone therapy. This increase may be due to the transdifferentiation of AR-expressing epithelial-derived adenocarcinoma cells into an NE cell phenotype.
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PMID:Comprehensive expression analysis of L-dopa decarboxylase and established neuroendocrine markers in neoadjuvant hormone-treated versus varying Gleason grade prostate tumors. 1699 53

Bombesin is a tetradecapeptide neurohormone that binds to gastrin-releasing peptide receptors (GRPR). GRPRs have been found in a variety of cancers including invasive breast and prostate tumors. The peptide MP2346 (DOTA-(Pro(1),Tyr(4))-bombesin(1-14)) was designed to bind to these GRP receptors. This study was undertaken to evaluate radiolabeled MP2346 as a positron emission tomography (PET) imaging agent. MP2346 was radiolabeled, in high radiochemical purity, with the positron-emitting nuclides (64)Cu (t(1/2) = 12.7 h, beta+ = 19.3%, E(avg) = 278 keV) and (86)Y (t(1/2) = 14.7 h, beta+ = 33%, E(avg) = 664 keV). (64)Cu-MP2346 and (86)Y-MP2346 were studied in vitro for cellular internalization by GRPR-expressing PC-3 (human prostate adenocarcinoma) cells. Both (64)Cu- and (86)Y-MP2346 were studied in vivo for tissue distribution in nude mice with PC-3 tumors. Biodistribution in PC3 tumor-bearing mice demonstrated higher tumor uptake, but lower liver retention, in animals injected with (86)Y-MP2346 compared to (64)Cu-MP2346. Receptor-mediated uptake was confirmed by a significant reduction in uptake in the PC-3 tumor and other receptor-rich tissues by coinjection of a blockade. Small animal PET/CT imaging was carried out in mice bearing PC-3 tumors and rats bearing AR42J tumors. It was possible to delineate PC-3 tumors in vivo with (64)Cu-MP2346, but superior (86)Y-MP2346-PET images were obtained due to lower uptake in clearance organs and lower background activity. The (86)Y analogue demonstrated excellent PET image quality in models of prostate cancer for the delineation of the GRPR-rich tumors and warrants further investigation.
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PMID:Molecular imaging of gastrin-releasing peptide receptor-positive tumors in mice using 64Cu- and 86Y-DOTA-(Pro1,Tyr4)-bombesin(1-14). 1737

The gastrin-releasing peptide receptor (GRPR) is overexpressed on a variety of tumor types and has been targeted with radiolabeled peptides for detection and therapy of these cancers. Analogues of the 14 amino acid bombesin (BN) peptide have been radiolabeled with both gamma- and positron-emitting radionuclides for detection of GRPR-expressing tumors. We have previously evaluated BN analogues radiolabeled with the positron-emitter, copper-64 (64Cu), that contained various aliphatic linkers placed between the BN peptide and the 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA) chelator. These studies showed that the analogues could be used for positron-emission tomographic (PET) imaging of GRPR-positive tumors in mice but clinical translation would be hindered by significant uptake in background tissues. Therefore, the purpose of this study was to determine if the use of amino acid linkers placed between the DOTA chelate and the BN peptide would reduce nontarget tissue uptake, while maintaining good prostate tumor uptake. The linkers studied utilized three amino acid combinations of glycine (G), serine (S), or glutamic acid (E). In vitro assays in PC-3 cells showed that the glutamic acid-containing linkers had poor binding and internalization, while the other analogues had IC50 values <100 nM and good internalization. In vivo, these same analogues demonstrated tumor-specific uptake and good imaging characteristics that were comparable to, or better than the previously reported 64Cu-labeled DOTA-BN analogues. Overall, this study shows that BN analogues containing amino acid linkers can be used for the PET imaging of GRPR-expressing prostate cancer and that these linkers lead to lower background tissue uptake.
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PMID:In vitro and in vivo evaluation of 64Cu-labeled DOTA-linker-bombesin(7-14) analogues containing different amino acid linker moieties. 1750 61

Radiolabeled peptides hold promise as diagnostic/therapeutic targeting vectors for specific human cancers. We report the design and development of a targeting vector, [(64)Cu-NOTA-8-Aoc-BBN(7-14)NH(2)] (NOTA = 1,4,7-triazacyclononane-1,4,7-triacetic acid, 8-Aoc = 8-aminooctanoic acid, and BBN = bombesin), having very high selectivity and affinity for the gastrin-releasing peptide receptor (GRPr). GRPrs are expressed on a variety of human cancers, including breast, lung, pancreatic, and prostate, making this a viable approach toward site-directed localization or therapy of these human diseases. In this study, [NOTA-X-BBN(7-14)NH(2)] conjugates were synthesized, where X = a specific pharmacokinetic modifier. The IC(50) of [NOTA-8-Aoc-BBN(7-14)NH(2)] was determined by a competitive displacement cell-binding assay in PC-3 human prostate cancer cells using (125)I-[Tyr(4)]-BBN as the displacement ligand. An IC(50) of 3.1 +/- 0.5 nM was obtained, demonstrating high binding affinity of [NOTA-8-Aoc-BBN] for the GRPr. [(64)Cu-NOTA-X-BBN] conjugates were prepared by the reaction of (64)CuCl(2) with peptides in buffered aqueous solution. In vivo studies of [(64)Cu-NOTA-8-Aoc-BBN(7-14)NH(2)] in tumor-bearing PC-3 mouse models indicated very high affinity of conjugate for the GRPr. Uptake of conjugate in tumor was 3.58 +/- 0.70% injected dose (ID) per g at 1 h postintravenous injection (p.i.). Minimal accumulation of radioactivity in liver tissue (1.58 +/- 0.40% ID per g, 1 h p.i.) is indicative of rapid renal-urinary excretion and suggests very high in vivo kinetic stability of [(64)Cu-NOTA-8-Aoc-BBN(7-14)NH(2)] with little or no in vivo dissociation of (64)Cu(2+) from the NOTA chelator. Kidney accumulation at 1 h p.i. was 3.79 +/- 1.09% ID per g. Molecular imaging studies in GRPr-expressing tumor models produced high-contrast, high-quality micro-positron-emission tomography images.
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PMID:[64Cu-NOTA-8-Aoc-BBN(7-14)NH2] targeting vector for positron-emission tomography imaging of gastrin-releasing peptide receptor-expressing tissues. 1762 88

Several monoclonal antibodies that target cell surface receptors have gained approval by the U.S. Food and Drug Administration and are widely used in the treatment of some cancers. These include but are not limited to the anti-CD20 antibody Rituximab, used in lymphoma treatment, as well as anti-HER-2 antibody for breast cancer therapy. The efficacy of this cancer immunotherapy modality is, however, limited by the large size of the antibody (160 kd) and its relatively nonspecific binding to the reticuloendothelial system. This latter property is particularly problematic if the antibody is used as a vehicle to deliver radionuclides, cytotoxic drugs, or toxins to the tumor site. Peptides, peptidomimetic, or small molecules are thus attractive as alternative cell surface targeting agents for cancer imaging and therapy. Cancer cell surface targeting peptides can be derived from known native peptide hormones such as somatostatin and bombesin, or they can be identified through screening combinatorial peptide libraries against unknown cell surface receptor targets. Phage-display peptide library and one-bead one-compound (OBOC) combinatorial library methods have been successfully used to discover peptides that target cancer cells or tumor blood vessel endothelial cells. The phage-display peptide library method, because of its biological nature, can only display l-amino acid peptides. In contrast, the OBOC combinatorial library method allows for bead-surface display of peptides that contain l-amino acids, d-amino acids, unnatural amino acids, or other organic moieties. We have successfully used the OBOC method to discover and optimize ligands against unique cell surface receptors of prostate cancer, T- and B-cell lymphoma, as well as ovarian and lung cancers, and we have used some of these peptides to image xenografts in nude mice with high specificity. Here, we (i) review the literature on the use of phage-display and OBOC combinatorial library methods to discover cancer and tumor blood vessel targeting ligands, and (ii) report on the use of an ovarian cancer targeting ligand, OA02, as an in vivo PET imaging probe in a xenograft model in nude mice.
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PMID:From combinatorial chemistry to cancer-targeting peptides. 1788 Jan 66

Transcriptional regulation plays a central role in the molecular pathways underlying preferential cancer growth and metastasis. In the present study, we investigated the regulation of human protease-activated receptor 1 (hPar1) gene overexpression in the malignant androgen hormone-resistant phase. We found increased hPar1 RNA chain elongation and no change in message stability in cells with high levels of PAR1 expression, indicating that increased transcription is largely responsible for the overexpression of hPar1 in prostate tumor progression. Enforced expression of early growth response-1 (Egr-1) plasmid markedly enhanced luciferase activity driven by the hPar1 promoter. The neuroendocrine peptide bombesin significantly induced hPar1 expression and increased the ability of the cells to invade Matrigel, an effect abolished by expression of hPar1 small interfering RNA, showing the importance of hPAR1 in invasion. Bombesin also markedly enhanced Egr-1 binding to the hPar1 promoter in vivo and in vitro. These data suggest that bombesin enhances Egr-1 expression leading to increased hPar1 transcription, thereby increasing PAR1 expression and function. Immunohistostaining of prostate tissue biopsy specimens revealed a direct correlation between the degree of prostate cancer malignancy, PAR1 expression, and EGR-1 expression. Altogether, we show that transcriptional regulation of hPar1 in the aggressive hormone-resistant prostate cancer stage is controlled in part by the transcription factor Egr-1 and may play a central role in invasiveness, an important indicator of malignancy.
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PMID:Transcriptional regulation of human protease-activated receptor 1: a role for the early growth response-1 protein in prostate cancer. 1794 14

Prostate cancer PC3 cells expressed constitutive protein kinase C (PKC) activity that under basal conditions suppressed neurotensin (NT) receptor function. The endogenous PKC activity, assessed using a cell-based PKC substrate phosphorylation assay, was diminished by PKC inhibitors and enhanced by phorbol myristic acid (PMA). Accordingly, PKC inhibitors (staurosporine, Go-6976, Go-6983, Ro-318220, BIS-1, chelerythrine, rottlerin, quercetin) enhanced NT receptor binding and NT-induced inositol phosphate (IP) formation. In contrast, PMA inhibited these functions. The cells expressed conventional PKCs (alpha, betaI) and novel PKCs (delta, epsilon), and the effects of PKC inhibitors on NT binding were blocked by PKC downregulation. The inhibition of NT binding by PMA was enhanced by okadaic acid and blocked by PKC inhibitors. However, when some PKC inhibitors (rottlerin, BIS-1, Ro-318220, Go-69830, quercetin) were used at higher concentrations (>2 microM), they had a different effect characterized by a dramatic increase in NT binding and an inhibition of NT-induced IP formation. The specificity of the agents implicated novel PKCs in this response and indeed, the inhibition of NT-induced IP formation was reproduced by PKCdelta or PKCepsilon knockdown. The inhibition of IP formation appeared to be specific to NT since it was not observed in response to bombesin. Scatchard analyses indicated that the PKC-directed agents modulated NT receptor affinity, not receptor number or receptor internalization. These findings suggest that PKC participates in heterologous regulation of NT receptor function by two mechanisms: a)-- conventional PKCs inhibit NT receptor binding and signaling; and b)-- novel PKCs maintain the ability of NT to stimulate PLC. Since NT can activate PKC upon binding to its receptor, it is possible that NT receptor is also subject to homologous regulation by PKC.
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PMID:Protein kinase C inhibitors alter neurotensin receptor binding and function in prostate cancer PC3 cells. 1831 72


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