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Query: UMLS:C0376358 (
prostate cancer
)
59,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Normal and abnormal developmental events in the prostate are strongly influenced by androgens. There is abundant evidence, however, that androgens are not the only substances present that have the capacity to influence prostatic growth. A number of polypeptides that either stimulate or inhibit growth have now been identified in the prostate. These include members of the HBGF family, TGF-beta family, EGF and
TGF-alpha
, PDGF, NGF, and the less well characterized osteoblast growth factors. In some cases, the prostatic cell population, stromal or epithelial, that synthesizes the growth factor and its receptor is known. This information and the properties of the growth factors suggest ways in which these polypeptides may be involved in regulating growth of the prostate, including benign prostatic hyperplasia and
prostate cancer
.
...
PMID:Polypeptide modulators of prostatic growth and development. 172 87
Advanced
prostatic cancer
(PC) involves a serious prognosis. PC cells form growth factors, which affect growth in autocrine or paracrine manner. PC cell lines, hormone dependency, and growth modalities are mentioned. Interference with these model systems by
TGF-alpha
, TGF-beta and EGF is described. The presence of less characterized growth factors in homogenates and conditioned media from PC cells is mentioned. An abundance of EGF and EGF-receptors has been found in PC compared to BPH samples. New strategies for treatment are outlined.
...
PMID:[Prostatic cancer and growth factors]. 223 65
Enhanced expression of the epidermal growth factor receptor (EGFR) or its ligands, epidermal growth factor (EGF) and transforming growth factor alpha (TGF-alpha) can increase signalling via receptor-mediated pathways which may lead to excessive proliferation and cellular transformation. Such autocrine regulation of growth has been demonstrated for
prostate cancer
cell lines in culture but its role in
prostate cancer
in vivo has not been established. To assess the potential of such a mechanism, we have examined the pathway components in prostate carcinomas (CaP) in comparison with non-malignant benign prostatic hyperplasias (BPH). In the present study, we investigate the dosage, structure and expression of EGF, TGF-alpha and EGFR genes in a series of 34 human prostate samples and 3
prostate cancer
cell lines. All of the samples contained transcripts from each of the genes. The expression of pre-pro-
TGF-alpha mRNA
and pre-pro-EGF mRNA were significantly higher in CaP (n = 13) than BPH (n = 21) specimens (p < 0.05). The androgen-responsive prostatic carcinoma cell line, LNCaP, expressed high levels of EGF mRNA while the androgen-independent DU145 and PC-3 cell lines expressed high levels of
TGF-alpha mRNA
and EGFR mRNA. In general, overexpression of these mRNAs was not associated with amplification or detectable gene rearrangement; only DU145 cells demonstrated any alteration in these genes, with apparent amplification of the TGF-alpha gene. Relative to BPH, all prostate carcinomas and cell lines studied had elevated levels of mRNA for one or both mRNA coding for the ligands for EGFR.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Expression of mRNA for epidermal growth factor, transforming growth factor-alpha and their receptor in human prostate tissue and cell lines. 750 78
Prostate-specific antigen (PSA), a M(r) 34,000 serine protease, is recognized as a useful marker for the detection and prognosis of patients with
prostate cancer
. Although serum PSA is an excellent prognostic indicator, an increasing number of factors were found to regulate the PSA expression of
prostatic cancer
cells, which include androgenic steroids, the growth factors (GFs) and the extracellular matrix. The purpose of this study is to define a novel protein factor that may be responsible for regulating PSA expression by androgen-independent (AI) human
prostate cancer
cells. We have established a LNCaP subline (C4) from a parental LNCaP tumor grown in a castrated host. The C4 subline overexpressed PSA mRNA and protein. Serum-free conditioned medium (CM) isolated from the C4 subline is able to stimulate PSA gene expression in parental LNCaP cells in a concentration-dependent manner. This autocrine PSA-inducing activity was found to be organ specific because CMs from other fibroblast cell lines (such as bone, prostate, kidney, and lung fibroblasts) and the CMs from several prostatic carcinoma cell lines (such as parental LNCaP, PC-3, DU-145) and a bladder transitional carcinoma cell line (WH) fail to exhibit similar activity. The activity of the CM from the C4 subline cannot be substituted by GFs such as
TGF-alpha
, TGF-beta, bFGF, HGF, KGF, or NGF; neuropeptide (bombesin/GRP); secondary messenger analogue (dibutyryl cAMP); beta 2-adrenergic agonist (isoproterenol); or alpha 1-adrenergic agonist (phenylephrine), indicating that the factor(s) may be a novel prostate-specific autocrine factor (PSAF). Both androgen and PSAF exhibit an additive effect on up-regulating PSA gene expression, suggesting that the signal transduction pathway elicited by PSAF may differ from that mediated by the androgen receptor. Further characterization of PSAF by heat, acid, and trypsin digestion revealed that the PSAF may be a protein factor with a unique amino acid composition. These observations suggest that a novel autocrine pathway mediated by PSAF may be responsible for the overexpression of PSA mRNA and protein in a human
prostatic cancer
cell line. The potential clinical significance of this factor will be discussed.
...
PMID:Autocrine regulation of prostate-specific antigen gene expression in a human prostatic cancer (LNCaP) subline. 768 49
Androgens affect growth of the prostate gland and many prostate cancers. Androgens could mediate their mitogenic effects on prostate cells by an autocrine loop involving epidermal growth factor (EGF) and transforming growth factor (TGF)-alpha that bind to the EGF/
TGF-alpha
receptor. We examined the effects of 5 alpha-dihydrotestosterone (DHT) and testosterone (T), EGF, and EGF-alpha on cell proliferation and 3H-thymidine incorporation in an androgen-dependent human
prostate cancer
cell line, ALVA101, in serum-free medium. The regulation of
TGF-alpha
and EGF/
TGF-alpha
receptor messenger RNA (mRNA) levels were determined by Northern blot analysis and EGF/
TGF-alpha
receptor protein by immunoblot. After 24 h of treatment of ALVA101 cells with DHT (10(-8) M) or T (10(-8) M),
TGF-alpha mRNA
levels increased 3- and 2.5-fold, respectively, and EGF/
TGF-alpha
receptor mRNA levels 2- and 1.5-fold, respectively. Cell numbers increased at day 5 in response to 10(-8) M DHT (18%, P < 0.01), 10(-8) M T (15%, P < 0.01), 20 ng/ml EGF (16%, P < 0.01), and 50 ng/mL
TGF-alpha
(34%, P < 0.01). DHT combined with
TGF-alpha
or T combined with EGF increased cell number 43% and 40% above control, respectively (P < 0.01 vs. DHT, P < 0.05 vs.
TGF-alpha
, T, EGF alone). The anti-EGF/
TGF-alpha
receptor antibody (528) blocked the cell proliferation induced by either DHT or
TGF-alpha
. We conclude that DHT and T stimulate synthesis of
TGF-alpha
and EGF/
TGF-alpha
receptor mRNAs and EGF/
TGF-alpha
receptor content in ALVA101 cells. This mitogenic effect of androgen on ALVA101 cells may involve
TGF-alpha
and the EGF/
TGF-alpha
receptor autocrine loop.
...
PMID:Androgens regulate proliferation of human prostate cancer cells in culture by increasing transforming growth factor-alpha (TGF-alpha) and epidermal growth factor (EGF)/TGF-alpha receptor. 826 29
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
.
...
PMID:Peptide growth factors in the prostate as mediators of stromal epithelial interaction. 868 1
For
prostate cancer
, a correlation exists between overexpression of the epidermal growth factor receptor (EGFR) and poor clinical prognosis. In addition, late-stage metastatic disease is characterized by a change from a paracrine to an autocrine mode of expression for
TGF-alpha
, the ligand for the EGFR. These observations suggest that activation of the EGFR may be important for the growth of prostatic carcinoma in situ, and blockade of the receptor-ligand interaction may offer a means of therapeutic intervention for this disease. We describe the biologic effects of a chimeric anti-EGFR monoclonal antibody, C225, on several human prostate tumor cell lines in culture and the tumor inhibitory properties of the antibody for the treatment of human prostate carcinoma xenografts in nude mice. In vitro analysis of the EGFR from androgen-responsive and independent prostatic carcinoma cell lines revealed that C225 blocked EGF-induced receptor activation and induced internalization of the receptor. In vivo, a treatment regimen of C225 alone or antibody plus doxorubicin significantly inhibited tumor progression of well-established DU145 and PC-3 xenografts in nude mice. These results suggest that C225 may have utility for the treatment of human prostate carcinoma in a clinical setting.
...
PMID:The biologic effects of C225, a chimeric monoclonal antibody to the EGFR, on human prostate carcinoma. 904 61
Prostate carcinoma (PCA) is the most commonly diagnosed malignancy in American men. Our knowledge of PCA growth regulation lags behind that of other cancers, such as breast and colon carcinomas. Among receptor tyrosine kinases, the ErbB family is most frequently implicated in neoplasia. We report here the expression of ErbB family kinases and their ligands in PCA cell lines and a xenograft. While ErbB1/EGFR, ErbB2/NEU, and ErbB3 were always observed in a distinct pattern, ErbB4 was not observed. Interestingly, while
TGF-alpha
was expressed in the majority of PCA lines, the ligand Neu Differentiation Factor/Heregulin (NDF) was expressed only in an immortalized, non-transformed prostate epithelial line. Concomitantly, there was a significant difference in biological response to these ligands. NDF inhibited LNCaP growth and induced an epithelial-like morphological change, in contrast to
TGF-alpha
, which accelerated cell growth. We also performed the first comprehensive analysis of NDF signaling in a prostate line. LNCaP stimulated with NDF demonstrated crosstalk between ErbB3 and ErbB2 which did not involve ErbB1. NDF also turned on several cascades, including those of PI3-K, ERK/MAPK, mHOG/p38 and JNK/SAPK, but not those of PLCgamma or the STAT family. This signaling pattern is distinct from that of
TGF-alpha
. The activation of mHOG by ErbB2 or ErbB3 has not been reported, and may contribute to the unusual phenotype. PI3-K activation is characterized by the formation of a striking 'activation complex' with multiple tyrosine-phosphorylated species, including ErbB3. Our studies provide a framework in which to dissect the growth and differentiation signals of
prostate cancer
cells.
...
PMID:ErbB kinases and NDF signaling in human prostate cancer cells. 940 Sep 97
An NCI-sponsored, phase II trial of N-(4-hydroxyphenyl)- retinamide (4-HPR) in patients with organ-confined
prostate cancer
in the period prior to radical prostatectomy was carried out. Thirty-seven men with the histologic diagnosis of
prostate cancer
planning to have radical prostatectomy entered the study after informed consent and were given 4-HPR (or matching placebo) as a single daily dose (two 100-mg capsules of 4-HPR or two capsules of placebo daily) for 3 weeks prior to surgery. Four men dropped out for unrelated reasons. Thirty-three men completed the study. At the time of surgery, repeat biopsies of the prostate were performed to study the effects of the drug on potential surrogate endpoint biomarkers (SEBs) of malignancy within the tissue. The panel of potential SEBs of malignancy include p53, cytomorphometric indices, ploidy, PNCA, erbB-2, erbB-3, EGF receptor,
TGF-alpha
tumor-associated glycoprotein-72, fatty acid synthetase and Lewis Y antigen. Twenty-three patients had matching pre- and posttherapy lesions and were considered informative. Results from the patients indicate significant differential expression of biomarkers in pretreatment specimens of uninvolved prostatic tissue (normal-appearing epithelia) prostatic intraepithelial neoplasia (PIN) and
prostate cancer
. The mean erbB-2 expression was 0.58 in uninvolved vs. 1.04 in PIN (p = 0.002); while the mean erbB-2 expression was 1.35 in
prostate cancer
(p = 0.0007, uninvolved vs.
prostate cancer
). A similar pattern of increased biomarker expression between uninvolved and PIN or
prostate cancer
tissues can be observed for EGF receptor (mean = 1.21, 1.87 and 1.76 for uninvolved, PIN and
prostate cancer
, respectively) and erbB-3 (mean = 0.81, 1.59 and 1.30 for uninvolved, PIN and
prostate cancer
, respectively). There were no statistically significant differences in biomarkers observed in the 4-HPR-treated patients when compared with placebo-treated control patients. There was a posttreatment up-regulation of biomarkers observed in both groups of patients. This observation is most likely explained by an effect due to the diagnostic sextant biopsy equally affecting both groups of patients. Results from this study do not demonstrate a chemoprevention effect of 4-HPR on tissue-based SEBs at the dose given.
...
PMID:Evaluation of biomarker modulation by fenretinide in prostate cancer patients. 1032 1
Epigenetic mechanisms may be the main driving force for critical changes in gene expression that are responsible for progression of prostate cancers. The three most extensively characterized mechanisms for epigenetic gene-regulation are (i) changing patterns of DNA methylation, (ii) histone acetylations/deacetylations, and (iii) alterations in regulatory feedback loops for growth factors. Several studies have indicated that DNA hypermethylation is an important mechanism in
prostate cancer
for inactivation of key regulatory genes such as E-cadherin, pi-class glutathione S-transferase, the tumor suppressors CDKN2 and PTEN, and IGF-II. Similarly, histone acetylations and deacetylations are frequently associated respectively with transcriptional activation (e.g. IGFBP-2 and p21) and repression (e.g. Mad:Max dimers) of genes linked to
prostate cancer
progression. Recently, histone acetyltransferase and deacetylase activities have been shown to be intrinsic with transcriptional coregulator proteins that bind to steroid receptors (e.g. SRC-1 and PCAF). Changes in regulatory feedback loops for growth factors with
prostate cancer
progression tend toward shifts from paracrine to autocrine control where the receptor and ligand are produced by the same cell. While there are several examples of this progression pattern in prostate tumors such as with IGF, FGF,
TGF-alpha
and their respective receptors, the precise mechanism (i.e. epigenetic or mutational) is less certain. In the context of treatment options, the contribution of mutational versus epigenetic events to
prostate cancer
progression is an important consideration. Irreversible genetic changes are likely to be less amenable to therapeutic control than are epigenetic ones.
...
PMID:Epigenetic mechanisms for progression of prostate cancer. 1045 84
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