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 lipid growth factor lysophosphatidic acid (LPA) elicits multiple cellular responses, including cell growth and survival. LPA acts upon target cells by activating its cognate receptors, which belong to the G protein-coupled endothelial differentiation gene (EDG) family. To date, three known LPA receptors, termed LPA1, LPA2 and LPA3, have been molecularly characterized and cloned. Here, we review recent data describing the molecular steps involved in the LPA receptor-mediated activation of mitogenic extracellular signal-regulated kinase (ERK) pathway in prostate cancer. Induction of ERK by LPA proceeds via Gbetagamma-dependent activation of tyrosine kinases, including the epidermal growth factor (EGF) receptor and c-Src. Further, LPA-induced ERK activation involves matrix metalloproteinases (MMPs), which cause the release of active EGFR ligands. Finally, we present data demonstrating a correlation between the mitogenic effects of LPA and expression of the lp(A1) gene in the prostate cancer cells.
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PMID:Mitogenic action of LPA in prostate. 1206 37

Constitutive activation of the signal transducer and activator of transcription 3 (Stat3) and mutation of the p53 are both commonly detected in human prostate cancer cells. We sought to investigate whether there is functional regulation of Stat3 by wild-type (wt) p53. Our results demonstrate that expression of wt p53 but not mutant p53 significantly reduced tyrosine phosphorylation of Stat3 and inhibited Stat3 DNA binding activity in both DU145 and Tsu prostate cancer cell lines that express constitutively active Stat3. Expression of the p53 downstream target, p21(WAF-1), did not have any inhibitory effect on Stat3 phosphorylation. Wt p53 but not p21(WAF-1) induced dramatic apoptosis in these prostate cancer cells. Expression of wt p53 did not cause a reduction of phosphorylation-independent Stat3 protein and reduction of phosphorylation of three unrelated protein kinases, ERK1, ERK2 (ERK1/2), and AKT. Interestingly, p53-dependent apoptosis occurred in the presence of high levels of phosphorylated AKT and ERK1/2 in both DU145 and Tsu prostate cancer cells. Further, we evaluated a series of established human prostate, breast, and ovarian cancer cell lines and found that all cancer cell lines expressing constitutively active Stat3, only harbor mutated or deleted p53. One implication of these results is that the anti-proliferative activities of p53 may not be compatible with the constitutive Stat3 signal in cancer cells.
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PMID:p53 regulates Stat3 phosphorylation and DNA binding activity in human prostate cancer cells expressing constitutively active Stat3. 1208 40

In a subset of endocrine therapy-resistant prostate cancers, amino acid substitutions H874Y, T877A and T877S, which broaden ligand specificity of the ligand binding domain (LBD) of the androgen receptor (AR), have been detected. To increase our knowledge of the role of amino acid substitutions at these specific positions in prostate cancer, codons 874 and 877 were subjected to random mutagenesis. AR mutants were screened in a yeast readout system for responsiveness to 5 alpha-dihydrotestosterone, progesterone and dehydroepiandrosterone. At position 874, only the histidine to tyrosine substitution could broaden AR ligand specificity. At position 877, 4 ligand specificity broadening substitutions were found: T877A, T877S, T877C and T877G. The latter 2 were not found in prostate cancer. The AR mutants were tested in mammalian (Hep3B) cells for responsiveness to 13 different ligands. All mutants displayed their own ligand specificity spectrum. Importantly, AR(H874Y) and AR(T877A) could be activated by cortisol. According to the 3-dimensional structure of the AR LBD, T877 interacts directly with the 17 beta-hydroxyl group of androgens. All amino acid substitutions identified at position 877 had smaller side chains than the threonine in the wild-type receptor, indicating that increased space in the ligand binding pocket is important in broadened ligand specificity. Because H874 does not interact directly with the ligand, its substitution by a tyrosine is expected to change the ligand binding pocket conformation indirectly. For T877C and T877G substitutions, 2-point mutations are required, and for H874Y, T877A and T877S substitutions, only a 1-point mutation is sufficient. This most likely explains that the latter 3 have been found in prostate cancer.
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PMID:Broadened ligand responsiveness of androgen receptor mutants obtained by random amino acid substitution of H874 and mutation hot spot T877 in prostate cancer. 1211 46

Over the past 15 years, numerous signal transduction pathways have been elucidated whose dysregulation may play an important role in the growth and survival of cancer cells. The success of imatinib mesylate (Gleevec; Novartis Pharmaceuticals, East Hanover, NJ), a small molecule that inhibits the activation of the BCR-Abl oncogene in the treatment of chronic myelogenous leukemia, has demonstrated how effective targeted strategies can be when properly applied. With the hope of selectively targeting other critical components of cancer growth and survival while minimizing toxicity to the host, numerous strategies have been developed to inhibit receptor tyrosine kinases for various growth factors commonly expressed by cancer cells. Success of targeted inhibitors is inherently dependent on the proper selection of patients whose tumors are dependent on these growth factor pathways. Unfortunately, in prostate cancer, such selection has been a difficult-to-impossible task to date. Because of the vast number of mutational events, it is difficult to demonstrate that any particular growth factor signaling pathway is critical. In addition, because of the type (mostly bone only) and nature (usually small foci) of metastases, limited access to tumor tissue in the advanced cancer population has hampered attempts to characterize patients by their molecular features or phenotype. This article will focus on defining alternative criteria for a rational drug target and novel study designs for testing these agents in prostate cancer. In particular, the neoadjuvant setting represents a unique opportunity for new drug development in prostate cancer. An example of a neoadjuvant study testing, imatinib mesylate, is presented to display the advantages and limitations of this study design.
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PMID:Receptor tyrosine kinases as rational targets for prostate cancer treatment: platelet-derived growth factor receptor and imatinib mesylate. 1223 Oct 66

Due to the characteristics of the luteal phase of the ovarian cycle in the dog, which spans a prolonged time period, this species is a suitable model to study the role of progestins in both normal morphogenic and abnormal tumorigenic processes in the mammary gland. It has been convincingly shown that progestins, including endogenous progesterone, induce the synthesis of growth hormone (GH) in the normal and the tumorous canine mammary gland. The growth hormone receptor (GHR) is also expressed in normal and tumorous canine mammary tissues and in this concise overview we highlight recent advances in our understanding of the significance of the GH/GHR system for mammary gland (patho)biology. In an attempt to unravel the cellular and molecular mechanisms associated with the GH/GHR system, we were able to show that both GH and GHR are differentially expressed in normal canine mammary tissues. Maximum expression of both GH and GHR occurs during the proliferation phase of the tissue, which links the progestin-induced mammary GH synthesis to the progestin-associated proliferation of epithelial cells in the mammary gland. Expression of the GH/GHR system is also present in most canine mammary tumors, albeit that GHR expression may be downregulated in undifferentiated mammary carcinomas. Upon GH stimulation of the GHR-positive CMT-U335 canine mammary tumor cell line, the transcription factors STAT5A and STAT5B become phosphorylated on their tyrosine residues, which is likely to reflect the significance of mammary GH in vivo. Molecular analysis of the canine mammary GHR transcripts by RT-PCR provided evidence for normal and alternative processing of the GHR primary transcript encoding the full-length plasma membrane GHR and at least four putative GH binding proteins (GHBPs), respectively. The translation products from the alternatively spliced GHR transcripts indicate an intact N-terminal ligand binding domain and an unique C-terminal portion, lacking the transmembrane domain and cytoplasmic tail. Thus, these proteins are considered to be able to bind GH, but have lost their signaling potential. The exact biological role of these GHBPs remains to be established, but GHBPs may have a transport function in the endocrine route, regulate the level of biologically available GH locally, or dominant-negatively influence the full-length plasma membrane GHR. In dog mammary cancer specimens strongly reduced levels of alternatively spliced GHR transcripts were found compared to the non-malignant mammary tissue. Notably, expression of both GH and GHR in mammary cancer cells is not restricted to dogs. Recent experiments generated evidence for GH and GHR expression in human breast cancer cells, and also in human prostate cancer cells, which represents another highly prevalent hormone-sensitive human malignancy. In agreement with our findings in the dog, the expression of the hGH-N gene in human mammary cancer cells seemed to correlate positively with their progesterone receptor status, which warrants, in our opinion, a reconsideration of the role of progestins in breast cancer of women. In human prostate cancer cells four different hGH-N transcripts were detected, which encode classical 22 kDa GH and GH-related proteins. Consistent with the findings on the canine GHR, different GHR transcripts in human mammary cancer cells and prostate cancer cells were detected encoding the full-length plasma membrane GHR and putative GHBPs.
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PMID:Morphogenic and tumorigenic potentials of the mammary growth hormone/growth hormone receptor system. 1243 8

Advanced and recurrent prostate tumors contain elevated levels of activated extracellular signal-regulated kinases 1 and 2 (ERK) in comparison to early-stage or benign specimens, and inhibition of ERK activation attenuates growth factor-dependent proliferation of prostate cells, suggesting a potential regulatory role for ERK in prostate tumorigenesis. Factors responsible for ERK activation in prostate cells are not well defined. Here, we show positive cooperative interaction between the G protein-coupled lysophosphatidic acid (LPA) and tyrosine kinase epidermal growth factor (EGF) receptors in androgen-insensitive prostate cancer PC-3 cells. Pre-treatment of the PC-3 cells with LPA decreases the dose of EGF required to elicit maximal activation of EGFR. Furthermore, treatment with LPA alone induces the rapid (maximal signal within 2 min) tyrosine phosphorylation of EGFR, and subsequent (maximal signal after 5 min) activation of ERK, suggesting that EGFR activation precedes ERK phosphorylation and may constitute a required component for signal relay from the LPA receptor to ERK. Accordingly, we show that inhibition of EGFR kinase activity attenuates the LPA-regulated ERK activation. In addition, we find that the LPA-regulated tyrosine phosphorylation of EGFR and activation of ERK are attenuated by batimastat, a generic inhibitor of matrix metalloproteinases (MMP). However, unlike the situation in fibroblasts, we find that the LPA-induced transactivation of EGFR in PC-3 cells is not mediated by shedding of heparin-binding EGF. Together, our data show that LPA and EGF cooperate to induce mitogenic signaling in prostate cancer cells in an MMP-regulated activation of the ERK pathway.
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PMID:Lysophosphatidic acid-regulated mitogenic ERK signaling in androgen-insensitive prostate cancer PC-3 cells. 1244 97

DOC-2/DAB2 is a potent tumor suppressor in many cancer types including prostate cancer. In prostate cancer, expression of DOC-2/DAB2 can inhibit its growth. Our recent studies demonstrate that DOC-2/DAB2 can suppress both protein kinase C and peptide growth factor-elicited signal pathways via the Ras-mitogen-activated protein kinase pathway. In this study, we further showed that the proline-rich domain of DOC-2/DAB2 could also interact with proteins containing the Src homology 3 domain, such as Src and Fgr. The binding of c-Src to DOC-2/DAB2 was enhanced in cells treated with growth factor, and this interaction resulted in c-Src inactivation. The c-Src inactivation was evidenced by the decreased tyrosine 416 phosphorylation of c-Src and reduced downstream effector activation. It appears that DOC-2/DAB2 can bind to Src homology 3 domain of c-Src and maintain it in an inactive conformation. Thus, this study provides a new mechanism for modulating c-Src in prostatic epithelium and cancer.
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PMID:Characterization of a novel negative regulator (DOC-2/DAB2) of c-Src in normal prostatic epithelium and cancer. 1247 51

We previously provided evidence that glucagon-like peptide 1 (GLP-1) induces pancreatic beta-cell growth nonadditively with glucose in a phosphatidylinositol (PI) 3-kinase- and protein kinase C zeta-dependent manner. However, the exact mechanism by which the GLP-1 receptor (GLP-1R), a member of the G protein-coupled receptor (GPCR) superfamily, activates the PI 3-kinase signaling pathway to promote beta-cell growth remains unknown. We hypothesized that the GLP-1R could activate PI 3-kinase and promote beta-cell proliferation through transactivation of the epidermal growth factor (EGF) receptor (EGFR), an event possibly linked to GPCRs via activation of c-Src and the production of putative endogenous EGF-like ligands. Both the c-Src inhibitor PP1 and the EGFR-specific inhibitor AG1478 blocked GLP-1-induced [(3)H]thymidine incorporation in INS(832/13) cells as well as in isolated rat islets, while only AG1478 inhibited the proliferative action of betacellulin (BTC), an EGFR agonist. Both compounds also suppressed GLP-1-induced PI 3-kinase activation. A time-dependent increase in tyrosine phosphorylation of the EGFR in response to GLP-1 was observed in INS(832/13) cells. This transactivation of the EGFR was sensitive to both the pharmacological agents PP1 and AG1478. The action of GLP-1 and BTC on INS cell proliferation was found to be not additive. Overexpression of a dominant-negative EGFR in INS cells with a retroviral expression vector curtailed GLP-1-induced beta-cell proliferation. GLP-1 treatment of INS cells caused a decrease in cell surface-associated BTC, as shown by FACS analysis. Also, the metalloproteinase inhibitor GM6001 and an anti-BTC neutralizing antibody suppressed the GLP-1 proliferative effect. Finally, coculturing the prostatic cancer cell line LNCaP that lacks GLP-1 responsiveness with INS cells increased LNCaP cell proliferation in the presence of GLP-1, thus revealing that INS cells secrete a growth factor in response to GLP-1. GM6001 and an anti-BTC neutralizing antibody suppressed increased LNCaP cell proliferation in the presence of GLP-1 in the coculture experiments. The results are consistent with a model in which GLP-1 increases PI 3-kinase activity and enhances beta-cell proliferation via transactivation of the EGFR that would require the proteolytic processing of membrane-anchored BTC or other EGF-like ligands.
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PMID:Glucagon-like peptide 1 induces pancreatic beta-cell proliferation via transactivation of the epidermal growth factor receptor. 1250 2

Evidence indicates that androgen-sensitive prostate cancer cells have a lower malignant potential. We previously demonstrated that expression of androgen receptor (AR) by transfection of the androgen-independent prostate cancer cell line PC3 decreases invasion and adhesion of these cells through modulation of alpha6beta4 expression. Treatment with the androgen further reduced adhesion and invasion of the cells without, however, modifying alpha6beta4. Here we investigated whether the androgen has a direct effect on alpha6beta4-EGF receptor (EGFR) interaction and signalling leading to invasion of these cells. Immunoconfocal microscopy demonstrated that in control cells (PC3-Neo), alpha6beta4 and EGFR colocalize and redistribute in response to epidermal growth factor (EGF). In PC3-AR cells colocalization and redistribution between the two molecules was reduced and abolished by pre-treatment with R1881. Co-immunoprecipitation studies demonstrated that tyrosine phosphorylation of beta4 in response to EGF was reduced in PC3-AR cells compared to PC3-Neo. Immunoconfocal and co-immunoprecipitation studies demonstrated colocalization at membrane level and co-immunoprecipitation of EGFR and AR, indicating an interaction between the two proteins. PI3K activity, a key signalling pathway for invasion of these cells, was decreased in PC3-AR cells in response to EGF and further reduced by treatment with R1881. EGFR internalization was strongly reduced in PC3-AR compared with PC3-Neo cells and was reduced by treatment with R1881. In conclusion, the expression of AR by transfection in PC3 cells confers a less malignant phenotype by interfering with EGFR--alpha6beta4 interaction and signalling leading to invasion through a mechanism involving an interaction between the classic AR and EGFR.
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PMID:Androgen receptor and prostate cancer invasion. 1253 34

Prostate-specific genes that have a role in normal and abnormal prostate growth are needed for early and specific diagnosis and treatment of prostate cancer. In the present study, the differential display-PCR technique was used to obtain a prostate-specific approximately 339-bp cDNA fragment. On screening the human-prostate lambdagt10 library with this fragment, a full-length 1468-bp human prostate-specific gene (HPG-1) with an open reading frame of 127 amino acids (aa) was retrieved. Extensive database search revealed that the HPG-1 has novel nucleotide/aa sequences. It was localized on Homo sapiens 3q26 chromosomal locus, a region that has been shown to be involved in prostate carcinoma. The computer-generated translated protein has a calculated molecular mass of 14.8 kDa with several potential glycosylation and phosphorylation sites including two N-linked glycosylation, one tyrosine phosphorylation, and one N-myristoylation sites. The in vitro transcription and translation procedures using HPG-1 cDNA yielded a protein of similar molecular mass of approximately 15 kDa. Hydrophilicity analysis of the deduced aa sequence indicated that HPG-1 is a membrane-anchored/attached protein. Analysis for tissue specificity by using the Northern blot and reverse transcription-PCR-Southern blot procedures using 19 different human tissues revealed that HPG-1 is expressed specifically only in prostate tissue. To examine its involvement in prostate carcinogenesis, three prostate cancer epithelial cell lines, one androgen-responsive (LNCaP) and two androgen-nonresponsive (DU-145 and PC-3), were examined for the expression of HPG-1. Using the Northern blot and quantitative reverse transcription-PCR procedures it was found that LNCaP and DU-145 cells and not the PC-3 cells have HPG-1 expression, with LNCaP cells having approximately 2-3-fold higher levels of HPG-1 mRNA transcripts compared with DU-145 cells. In vitro culture of LNCaP cell with antisense and not the sense oligonucleotide decreased the HPG-1 mRNA levels and inhibited the cell growth in a concentration-dependent manner; at 72 h there was an 86% inhibition of cell growth. HPG-1 mRNA expression in LNCaP cells was found to be responsive to androgen. Thus, the novel androgen-responsive HPG-1, which has prostate-specific expression and seems to be involved in carcinogenesis, may have applications in the specific diagnosis and treatment of prostate cancer.
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PMID:A novel human prostate-specific gene-1 (HPG-1): molecular cloning, sequencing, and its potential involvement in prostate carcinogenesis. 1254 84

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