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

Peptide growth factors play a role in the maintenance of normal prostatic growth and differentiation (Fig. 2). It seems likely that the androgen sensitivity of human prostate is mediated by the production of peptide growth factors from stromal cells which act as the direct intermediate of androgen action on epithelial cells. TGF-beta 1 inhibition of epithelial cells is opposed by the stimulatory action of EGF, IGF and FGFs to maintain an equilibrium of epithelial cell numbers. The indirect mitogenic action of androgens appear to act by down-regulation of TGF-beta 1 and possibly EGF receptors. There is also interaction with the effects of IGF-II, produced by prostatic stromal cells and acting on epithelial cells to increase proliferation. The growth of normal prostatic fibroblasts is under the control of bFGF and TGF-beta 1. However, although our understanding of the actions of these growth factors in the normal prostate has improved over the last decade, their role in the development and maintenance of prostate cancer is less clearly defined. TGF-beta 1, classically considered to be inhibitory for epithelial cells, may be up-regulated in prostatic tumours, stimulating growth. Alternatively, autocrine production of such growth factors by tumour cells may lead to loss of inhibitory effects from exogenous TGF-beta 1, a mechanism also witnessed with TGF-alpha and bFGF. The role of EGF in the development of prostate cancer is confusing because results from the use of different cell types and experimental conditions is contradictory. It may be that a switch in the production of the predominant EGFr ligand from EGF to TGF-alpha is an important feature in the development and maintenance of the malignant phenotype. The presence of TGF-alpha autocrine loops has been shown clearly in some tumour cell lines. This switch in the production of a particular ligand may also be a feature of IGFs in prostate cancer. IGF-II may be replaced by IGF-I during malignant progression, both of which are able to act via the type 1 receptor. This change in IGF expression appears to be accompanied by altered expression of the IGF-BP2, with less detectable within prostatic tissues but elevated serum levels [58]. Basic FGF is normally produced by prostatic fibroblasts but is also produced by some prostatic cancer cell lines [64]. However, as with all growth factors, the expression of the bFGF protein and its receptor is dependent on the cell line examined. The autocrine and paracrine control of normal and abnormal prostatic growth by growth factors is important in determining their role in the development and maintenance of prostate cancer. Better understanding of such mechanisms is essential for the development of novel therapeutic strategies in the control and treatment of prostate cancer.
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PMID:Peptide growth factors in the prostate as mediators of stromal epithelial interaction. 868 1

We have characterized the temporal expression of the insulin-like growth factor (IGF) axis in the transgenic adenocarcinoma of mouse prostate (TRAMP) model as prostate cancer progression in this model closely mimics that observed in the human disease, and the model provides samples representing the earliest stages of prostate cancer that are clinically the most difficult to obtain. We report that prostate-specific IGF-I mRNA expression increased during prostate cancer progression in TRAMP mice and was elevated in the accompanying metastatic lesions, whereas prostatic IGF-I mRNA remained at nontransgenic levels in androgen-independent disease. Expression of IGF-II mRNA, however, was reduced in primary prostate cancer, metastatic lesions, and androgen-independent disease. Expression of type-1 IGF receptor (IGF1R) mRNA, encoding the cognate receptor for both IGF-I and IGF-II, as well as type-2 IGF receptor (IGF2R) mRNA was not found to be altered during primary prostate cancer progression in intact TRAMP mice but was dramatically reduced in metastatic lesions and in androgen-independent disease. Similar to reports from clinical disease, serum IGF-I levels were observed to increase precociously in TRAMP mice early in disease progression but remained at nontransgenic levels after castration. Elevated serum levels of IGF-binding protein 2 were observed to correlate with advanced prostate cancer in the TRAMP model. Together these observations implicate IGF-I as an important factor during the initiation and progression of primary prostate cancer and provide evidence that there is a strong selection against expression of IGF1R and IGF2R in metastatic and androgen-independent disease.
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PMID:The insulin-like growth factor axis and prostate cancer: lessons from the transgenic adenocarcinoma of mouse prostate (TRAMP) model. 1023 9

We have shown recently that inhibition of androgen receptor (AR) expression with an antisense AR oligonucleotide (ODN) inhibits LNCaP prostate tumor cells in vitro as well as in vivo. In this study, we investigated gene expression changes that occur after AR signaling blockade, either through AR elimination by antisense treatment or through complete androgen receptor inhibition by androgen deprivation combined with the antiandrogen bicalutamide, in order to search for genes that are directly or indirectly regulated through the AR. Gene expression changes were investigated with cDNA NIH 10K gene microarrays in response to treatment over 48 h. Expression of selected genes was further analyzed by real-time reverse transcriptase (RT)-polymerase chain reaction (PCR), Western blotting, and radioimmunoassay. A comparison of antisense-treated and androgen-deprived cells revealed several concordances such as significant downregulation of prostate-specific genes, cell-cycle regulatory genes, genes of the cholesterol biosynthesis pathway, and several cytoskeletal genes. However, there were also several genes that were differentially regulated. Among the genes that were exclusively changed by treatment with the antisense AR ODN were the insulin-like growth factor binding protein 2 (IGFBP2) and the phosphatidylinositol-4-phosphate 5-kinase type I alpha (PIP5KIA). On the other hand, complete androgen receptor blockade induced changes in the expression of the prostate overexpressed gene 1 and the S100 calcium binding protein P. In summary, we identified a cohort of interesting genes whose expression was highly affected by elimination of the AR in LNCaP prostate cancer cells. Further investigations are warranted to clarify their role in the AR signaling pathway and their susceptibility as a target for the treatment of prostate cancer.
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PMID:Gene expression changes following androgen receptor elimination in LNCaP prostate cancer cells. 1289 27

PTEN is an important tumor-suppressor gene associated with many cancers. Through expression profiling of glioblastoma tissue samples and prostate cancer xenografts, we identified a molecular signature for loss of the PTEN tumor suppressor in glioblastoma and prostate tumors. The PTEN signature consists of a minimum of nine genes, several of which are involved in various pathways already implicated in tumor formation. Among these signature genes, the most significant was an increase in insulin growth factor-binding protein 2 (IGFBP-2) mRNA. Up-regulation of IGFBP-2 was confirmed at the protein level by Western blot analysis and validated in samples not included in the microarray analysis. The link between IGFBP-2 and PTEN was of particular interest because elevated serum IGFBP-2 levels have been reported in patients with prostate and brain tumors. To further investigate this link, we determined that IGFBP-2 expression is negatively regulated by PTEN and positively regulated by phosphatidylinositol 3-kinase (PI3K) and Akt activation. In addition, Akt-driven transformation is impaired in IGFBP2(-/-) mouse embryo fibroblasts, implicating a functional role for IGFBP-2 in PTEN signaling. Collectively, these studies establish that PTEN and IGFBP-2 expression are inversely correlated in human brain and prostate cancers and implicate serum IGFBP-2 levels as a potential serum biomarker of PTEN status and PI3K Akt pathway activation in cancer patients.
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PMID:Insulin growth factor-binding protein 2 is a candidate biomarker for PTEN status and PI3K/Akt pathway activation in glioblastoma and prostate cancer. 1737 10

Since its identification in 1979, prostatic specific antigen (PSA) has been used extensively as a serum marker for diagnosis and prognosis of prostate cancer. In addition, PSA is an immunohistochemical marker for the identification of prostatic tissues and cells in histological specimens. PSA is found in normal prostate, benign prostatic hypertrophy (BPH) tissue, in cancer of the prostate, and its metastases as well as in other hormone dependent cancers, such as breast and ovarian carcinoma. However, the importance of PSA as a regulator of cell growth generally has not been appreciated. The role of PSA in the development of prostate or other hormone-dependent cancers has remained unclear. We therefore examined the role of PSA in the control of cell growth using both the PSA positive cell line, LNCaP cells and the PSA negative cell line PC-3 and DU145. LNCaP cell growth was stimulated by the conditioned medium (CM) from LNCaP cells, but not by CM from PC-3 or DU145 cells. No such stimulation was observed when PC-3 or DU145 cells were exposed to CM from LNCaP cells nor from CM produced by their own lines. The stimulation of LNCaP cell growth by its own CM could not be attributed to the high level of insulin-like growth factor binding protein-2 (IGFBP-2) present in the CM since even higher level of IGFBP-2 was also found to be present in CM from both PC-3 and DU145 CMs. High level of PSA and 66 kDa epidermal growth factor (EGF) were present in LNCaP CM as measured by Western blotting. The stimulation of LNCaP cell growth by its own CM was eliminated partially by PSA or EGF antibody. Stimulation of DNA biosynthesis in LNCaP cells by LNCaP CM or pure PSA was also observed. These data indicate that PSA and EGF are involved in the growth regulation of PSA positive LNCaP cell line.
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PMID:Involvement of prostate specific antigen in the stimulation of LNCaP cell growth. 2159 81

Peptide hormone relaxin produced in normal and cancer prostate cells can stimulate prostate cancer progression. Suppression of relaxin or relaxin receptor RXFP1 expression inhibited prostate cancer both in vitro and in vivo. RXFP1 is a G protein-coupled receptor with the extracellular low density lipoprotein A (LDL-A) module located at the N-terminus. The LDL-A module exhibits a competitive inhibition effect on the RXFP1 function and might be used to suppress relaxin signaling. In this study, we investigated the effect of LDL-A overexpression on prostate cancer cells. PC3 cells expressing the RXFP1-LDL-A module had a decreased proliferation, soft agar colony formation, adhesion, invasion in vitro, and grew at a slower rate than control cells as tumors in xenograft models in mice. Expression analysis revealed that the RXFP1-LDL-A expression in PC3 cells inhibited Akt phosphorylation and MMP2 activation, and led to the down-regulation of several genes previously implicated in tumorigenesis, such as MMP28, S100P, IGFBP2, MUC1 and S100A4. These results indicate that the inhibition of RXFP1 by peptide based on the LDL-A module of this receptor may be a potential approach for prostate cancer suppression.
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PMID:Expression of LDL-A module of relaxin receptor in prostate cancer cells inhibits tumorigenesis. 2184 20

The role of the insulin-like growth factor (IGF) axis and whether IGFs interact with androgen-suppressing agents in relation to prostate carcinogenesis is unclear. This nested case-control study (n = 1,652 cases/1,543 controls) examined whether serum IGF1, IGF2, IGFBP2, IGFBP3, and the IGF1:IGFBP3 ratio were associated with prostate cancer in the Prostate Cancer Prevention Trial (PCPT), a randomized, placebo-controlled trial of finasteride for prostate cancer prevention. Presence or absence of cancer was determined by prostate biopsy. Baseline serum was assayed for IGF-axis analytes using ELISA. Logistic regression estimated ORs and 95% confidence intervals for risk of total, low-grade (Gleason 2-6) and high-grade (Gleason 7-10) cancers. Results were stratified by intervention assignment. In both the placebo and finasteride arms, serum IGF1, IGF2, IGFBP3, and the IGF1:IGFBP3 ratio were not associated with prostate cancer. However, men in the highest versus lowest quartile of serum IGFBP2 had a 48% (P(trend) = 0.02) and 55% (P(trend) = 0.01) increased risk for total and low-grade cancers, respectively. These IGFBP2 associations were attenuated and no longer statistically significant in the finasteride arm. Our results suggest that in general, serum IGF-axis analytes were not associated with prostate cancer risk in the PCPT in which presence or absence of all cancers was biopsy-determined. The exception was the finding that high serum IGFBP2 is a risk factor for low-grade disease, which was attenuated for men on finasteride. Further research is needed to understand better the risk incurred by high IGFBP2 and whether androgen-suppressing agents such as finasteride influence aspects of IGFBP2 physiology relevant to prostate carcinogenesis.
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PMID:Insulin-like growth factors and insulin-like growth factor-binding proteins and prostate cancer risk: results from the prostate cancer prevention trial. 2331 96

This reviews describes the concept of androgen-dependent growth of bladder cancer and the role of single-nucleotide polymorphisms (SNPs) located on chromosome 8q24 as a common carcinogenetic pathway for the development of concomitant prostate and bladder cancer. Recent genome-wide association studies have identified high-risk SNPs on chromosome 8q24 that have been linked with increased susceptibility for bladder and prostate cancer and alterations in the androgen receptor (AR) pathway. Muscle-invasive bladder cancers overexpress the AR, whereas in locally advanced or lymph-node positive stages loss of AR expression has been found. The prostate stem cell antigen (PSCA) gene possesses an androgen-responsive element (ARE) in its promoter region. Heterozymous and homozygous carriers of the SNP rs22940008 in the first exon of the PSCA gene are at increased risk for invasive bladder cancers. They exhibit significantly lower PSCA messenger RNA expression than patients with the wild-type genotype. Loss of the AR responsivity of the PSCA promoter may be a result of an altered affinity of the AR to the ARE mediated by the rs2294008 SNP or reduced expression of AR coactivators. Thereafter, induction of an androgen-independent mechanism, i.e. the insulin-like growth factor binding protein-2 signalling pathway--a key event in the development of hormone-independent prostate cancer--may increase tumour aggressiveness and metastatic potential of invasive bladder cancer cells. Loss of PSCA expression may represent an important step for androgen-independent growth, linked with the presence of the rs2294008 SNP. Determination of the AR status in cystectomy specimens offers new therapeutic approaches in locally advanced bladder cancer.
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PMID:Evolution of the concept of androgen-sensitive bladder cancer. 2333 Aug 17

Prostate cancer is one of the most commonly diagnosed male malignancies. Genome wide association studies have revealed HNF1b to be a major risk gene for prostate cancer susceptibility. We examined the mechanisms of involvement of HNF1b in prostate cancer development. We integrated data from Gene Expression Omnibus prostate cancer genes from the Dragon Database of Genes Implicated in Prostate Cancer, and used meta-analysis data to generate a panel of HNF1b-associated prostate cancer risk genes. An RT-PCR was used to assess expression levels in DU145, PC3, LNCaP, and RWEP-1 cells. Twelve genes (BAG1, DDR1, ERBB4, ESR1, HSPD1, IGFBP2, IGFBP5, NR4A1, PAWR, PIK3CG, RAP2A, and TPD52) were found to be associated with both HNF1b and prostate cancer risk. Six of them (BAG1, ERBB4, ESR1, HSPD1, NR4A1, and PIK3CG) were mapped to the KEGG pathway, and submitted to further gene expression assessment. HNF1b, NR4A1, and HSPD1 were found to be highly expressed in the LNCaP androgenic hormone-dependent cell line. Compared to expression levels in wild-type prostate cancer cells, NR4A1, HSPD1, ERBB4, and ESR1 expression levels were also found to be significantly increased in the HNF1b-transfected cells. We conclude that the mechanism of action of HNF1b in prostate cancer involves modulation of the association between androgenic hormone and prostate cancer cells. Gene-gene interaction and coordination should be taken into account to determine relationships between specific loci and diseases.
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PMID:HNF1b is involved in prostate cancer risk via modulating androgenic hormone effects and coordination with other genes. 2366 56

Clinically relevant prostate cancer (PCa) is more frequent in Westernised societies and increasingly men have co-morbidities associated with a Western lifestyle, primarily diabetes, characterised by hyperinsulinaemia and hyperglycaemia. IGFs and their binding proteins (IGFBPs) are important mediators of the effects of nutrition on growth and play a key role in the development of PCa. We used DU145, PC3 and LNCaP PCa cell lines to examine how hyperglycaemia altered their response to docetaxel. Trypan Blue dye-exclusion assay was used to determine the percentage of cell death. Protein abundance was determined using western immunoblotting. Levels of IGFBP2 were measured using an ELISA. IGFBP2 gene silencing was achieved using siRNA technology. DNA methylation was assessed using combined bisulphide restriction analysis. Acetylation status of histones H3 and H4 associated with IGFBP2 gene was assessed using chromatin immunoprecipitation assay. Hyperglycaemia reduced docetaxel-induced apoptosis by 40% for DU145 cells and by 88% for LNCaP cells. This reduced cell death was mediated by a glucose-induced up-regulation of IGFBP2, as silencing IGFBP2 negated the survival effect of high glucose. Glucose increased IGFBP2 via increasing the acetylation of histones associated with the IGFBP2 gene promoter. This finding could have important implications in relation to therapeutic strategies as epigenetic modulation could be reversible.
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PMID:Hyperglycaemia-induced chemoresistance of prostate cancer cells due to IGFBP2. 2395 56


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