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Query: UMLS:C0376358 (
prostate cancer
)
59,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We constructed expression vectors containing either rat fibroblast growth factor (FGF)-1 for
FGF-2
cDNA cloned in either the sense orientation or antisense orientation relative to the metallothionein promoter of plasmid pMTneo.1. Stable AXC/SSh rat
prostate cancer
cell transfectants expressing either chimeric FGF-1-sense, chimeric FGF-1-antisense, or chimeric
FGF-2
-antisense transcripts were obtained. Stable transfectants expressing chimeric
FGF-2
-sense transcripts were not obtained. Control, sense, and antisense transfectants expressed endogenous FGF-1 and endogenous
FGF-2
transcripts, implying that transfection did not eliminate endogenous FGF transcripts. Control transfectants and sense transfectants contained FGF-1 isoforms having a mass of 16.4 or 17.3 kDa and
FGF-2
isoforms having a mass of 17, 19.5, or 21.5 kDa. Significantly, adult AXC/SSh rat prostate contained only the 17.3 kDa FGF-1 isoform and the 17 kDa
FGF-2
isoform, indicating that neoplastic transformation was associated with elaboration of novel, prostate epithelial cell-derived
FGF-2
isoforms. FGF-1 antisense RNA expression eliminated transfectant FGF-1 isoforms without affecting
FGF-2
isoform content. Similarly,
FGF-2
-antisense RNA expression eliminated the transfectant 21.5 kDa
FGF-2
isoform, diminished the 19.5 kDa
FGF-2
isoform content, and reduced the 17 kDa
FGF-2
isoform content to barely detectable levels without affecting the FGF-1 isoform content. This established that FGF-antisense RNAs specifically inhibited translation of cognate, endogenous FGF transcripts. Doubling times of control transfectants and sense transfectants were indistinguishable and were not affected by including FGF-1 or
FGF-2
in the culture medium. Doubling times of FGF-1-antisense or
FGF-2
-antisense transfectants were 1.3- to 1.4-fold greater than those of control transfectants or sense transfectants, and either exogenous FGF-1 or exogenous
FGF-2
decreased antisense transfectant doubling times to values indistinguishable from those of control transfectants or sense transfectants. This established that with regard to
prostate cancer
cell proliferation: (a) endogenous FGF-1 cannot substitute for endogenous
FGF-2
eliminated by
FGF-2
-antisense RNA expression; and (b) endogenous
FGF-2
cannot substitute for endogenous FGF-1 eliminated by FGF-1-antisense RNA expression. In contrast, either exogenous FGF-1 or exogenous
FGF-2
decreased antisense transfectant doubling time. The results of these studies establish that endogenous FGF-1 and endogenous
FGF-2
modulate
prostate cancer
cell proliferation and imply that FGF-1 and
FGF-2
of endogenous and exogenous origin conjointly control aspects of
prostate cancer
cell homeostasis. Our findings suggest complex interaction between components of
prostate cancer
cell regulatory processes and endogenously produced and exogenously accessible FGF-1 and
FGF-2
.
...
PMID:Endogenous fibroblast growth factor-1 or fibroblast growth factor-2 modulate prostate cancer cell proliferation. 873 67
The outcome of patients with
prostate cancer
is largely dependent on the ability of the primary tumor for local invasion, angiogenesis and metastasis. To better understand the cell-cell interactions that participate in
prostate cancer
neovascularization, we have developed a novel three-dimensional co-culture system. Capillary-like structures were induced in fibrin gel in which collagen gels containing fibroblasts and/or PC-3 human prostate adenocarcinoma cells were sandwiched together. In the presence of collagen-embedded fibroblasts, angiogenesis apparently occurred, while endothelial cells did not survive when only PC-3 cells were embedded in collagen. In contrast, when PC-3 cells were combined with fibroblasts in collagen gel an enhanced formation of capillary-like structure formation was noted, particularly using
FGF-2
-supplemented medium. In addition, we observed morphological evidence of PC-3 cells and fibroblast invasion into fibrin using this system. Therefore, we conclude that fibroblasts apparently play an important role in angiogenesis and tumor invasion. Furthermore, this novel three-dimensional co-culture is apparently a promising model for studying de novo angiogenesis and tumor invasion in vitro.
...
PMID:Stromal fibroblasts are required for PC-3 human prostate cancer cells to produce capillary-like formation of endothelial cells in a three-dimensional co-culture system. 917 94
Using quantitative RT-PCR, we found that T1 rat
prostate cancer
cell relative FGF-1 transcript content was about 180-fold greater than that of
FGF-2
. This difference in transcript content was not representative of T1 cell relative FGF-1 and
FGF-2
protein content which showed, at most, only a 4- to 5-fold greater FGF-1 content. Testosterone caused time-dependent down-regulation of
prostate cancer
cell
FGF-2
transcript content without influencing either FGF-1 or FGF-8 transcript content or T1 cell proliferation. Moreover, testosterone-mediated down-regulation of
prostate cancer
cell
FGF-2
transcripts did not result in a statistically significant change in 21.5 or 17.0 kD
FGF-2
isoform content. By contrast, an approximately 20% statistically significant decrement in 19.5 kD
FGF-2
isoform content was demonstrable following 24 h testosterone treatment. However, following 72 h testosterone treatment, T1 cell 19.5 kD
FGF-2
isoform content was not statistically significantly different from that of control. It is probable that the modest and variable decrement in 19.5 kD isoform content is not physiologically significant and is attributable to artifact resulting from difficulty quantifying this minor component of the
FGF-2
isoforms. Transient transfection analysis showed that androgen caused concentration-dependent increases in MMTV-LTR regulated expression of chloramphenicol acetyl transferase activity. Consequently, the failure of androgen to affect either T1 cell FGF-1 and FGF-8 transcript content or T1 cell proliferation could not be attributed to defective androgen receptor function. Moreover, the absence of a close relationship between T1 cell
FGF-2
transcript and
FGF-2
protein content implies that
FGF-2
transcript content is not the dominant determinant of
prostate cancer
cell
FGF-2
protein content. Testosterone-mediated down-regulation of prostate-cancer-cell gene expression may have significance for clinical management of human disease that is treated by androgen ablation. The possibility that such ablation may enhance aggressiveness of "androgen-independent" cells by selective upregulation of gene expression merits further consideration.
...
PMID:Androgen regulation of prostate cancer cell FGF-1, FGF-2, and FGF-8: preferential down-regulation of FGF-2 transcripts. 977 71
We used rat
prostate cancer
cell stable transfectants that lacked either endogenous fibroblast growth factor (FGF)-1 secondary to constitutive expression of FGF-1 antisense RNA (aFa2-transfectants) or endogenous
FGF-2
isoforms secondary to constitutive expression of
FGF-2
antisense RNA (bFa9-transfectants) to examine the potential synergistic effects of mitogen and androgen as modulators of proliferation. During culture on 5% charcoal-stripped fetal bovine serum (CS-FBS), FGF-1 caused a 2- to 2.5-fold increase in the proliferation of aFa2-transfectants that lacked endogenous FGF-1 and retained full expression of
FGF-2
isoforms. In marked constrast, bFa9-transfectants that lacked
FGF-2
isoforms and retained full expression of FGF-1 died with exponential kinetics when cultured on either 5% CS-FBS or 5% FBS in the absence of
FGF-2
. However,
FGF-2
promoted bFa9-transfectant survival and exponential proliferation during culture on either 5% CS-FBS or 5% FBS. The nonmetabolizable androgen R1881 did not affect proliferation of either the aFa2- transfectants, the bFa9-transfectants, or the parental
prostate cancer
cells used to generate these transfectants. Additionally, neither of the androgen receptor antagonists RU23908 or bicalutamide affected either FGF-1-mediated aFa2-transfectant proliferation or
FGF-2
-mediated bFa9-transfectant proliferation during culture on 5% CS-FBS. Notably, transient transfection analyses established R1881 concentration-dependent induction of chloramphenicol acetyltransferase activity in both aFa2-transfectants and bFa9-transfectants. Thus, the failure of either androgen or antiandrogen to affect either FGF-mediated or FGF-independent antisense-transfectant proliferation is not attributable to absence of functional androgen receptors. The results indicate that FGF effects in these androgen-resistant antisense transfectants do not involve either androgen-dependent or androgen-independent, mitogen-mediated androgen receptor activation. Our studies show that these rat
prostate cancer
cells are characterized by both retention of functional androgen receptors during development of androgen resistance and mitogen-mediated, autocrine or paracrine (or both) modulated proliferation. These are two prominent properties characteristic of advanced human
prostate cancer
.
...
PMID:Neither fibroblast growth factor-1 nor fibroblast growth factor-2 is an androgen receptor coactivator in androgen-resistant prostate cancer. 1169 May 59
This study was performed to develop an experimental model in which expression of estrogen receptors (ER) by human prostatic stromal cells could be reproducibly enhanced relative to similar cells with low ER expression. The second aim was to characterise changes in expression of ER, androgen receptor (AR),
FGF-2
and FGF-7 in stromal cells exposed to high and low concentrations of estradiol and testosterone mimicking the different sex hormone levels between young and elderly men. Five strains of human prostatic stromal cells, isolated from BPH resections, were grown in steroid-free medium plus 1 micromol 17beta-estradiol. After 10 days, cells were passaged and grown in the same medium without estradiol until confluent. In a second study four cell strains were exposed to high and low concentrations of 17beta-estradiol and testosterone for 10 days. Cells were labelled with fluorescent antibodies to ERalpha, AR,
FGF-2
and FGF-7 and the fluorescence intensity measured by flow cytometry. Following exposure to 1 micromol estradiol, stromal cells showed reduced expression of AR and ERalpha but after passage without estradiol they showed a 25% increase in both receptors over controls. Different combinations of sex hormones induced inconsistent changes with respect to expression of ER, AR and FGFs in the various cell-strains. However, there was a highly significant correlation between AR, ER and
FGF-2
and FGF-7, which was cell strain-specific. Thus, changes in sex hormone balance per se may not be solely responsible for the observed increases in prostatic ER levels in BPH. Since expression of ER is correlated with synthesis of
FGF-2
and FGF-7, it is likely that increases in stromal ER may mediate the synthesis of stromally-derived growth factors which contribute to the aetiopathogenesis of benign prostatic hyperplasia.
Prostate Cancer
Prostatic Dis 2002
PMID:Upregulation of estrogen and androgen receptors modulate expression of FGF-2 and FGF-7 in human, cultured, prostatic stromal cells exposed to high concentrations of estradiol. 1249 97
Imbalances in the epithelial-stromal interactions are important in the pathogenesis of
prostate cancer
. However, we know little about androgenic regulation in the stroma of
prostate cancer
. We examined the cancer-stromal interaction paying attention to androgen responsiveness of stromal side. In co-culture, PC3 and LNCaP cells did not affect dihydrotestosterone (DHT)-dependent growth of prostate stromal cells (PrSCs), but DU145 cells significantly reduced it. Conditioned medium from DU145 cells (DU145-CM) also inhibited DHT-dependent PrSCs growth, androgen receptor (AR) expression, and prostate specific antigen transcription. Although the inhibitory effect of DU145-CM was not affected by neutralizing antibody against EGF,
FGF-2
, or TNF-alpha, pretreatment with testosterone-Sepharose partially reduced the inhibitory ability of DU145-CM. These results suggest that DU145 cells produce inhibitory factors for androgen responsiveness, including steroid-binding protein(s), and these may participate in crosstalk between DU145 cells and PrSCs as modulators of androgen.
...
PMID:Androgen-independent prostate cancer DU145 cells suppress androgen-dependent growth of prostate stromal cells through production of inhibitory factors for androgen responsiveness. 1281 65
Some studies suggest that several tumors have a greater incidence in those patients with a high fat diet, such as colon, breast, and prostate. However, we wanted to determine the effects of obesity alone, independent of diet, on the progression of prostate tumor growth. Using a genetic model of obese and lean Zucker rats, we wanted to demonstrate any sera differences in the concentration of basic fibroblast growth factor (
FGF-2
) and vascular endothelial cell growth factor (VEGF), two important factors involved in the growth and progression of
prostate cancer
. We also wanted to investigate if there were any differences in immune function between the two sera, which could also account for uninhibited tumor growth, as well as differences in mitogenic stimulation. Female Zucker rat obese and lean sera were analyzed using ELISA assays for
FGF-2
, VEGF, and macrophage inflammatory protein-1 alpha (MIP-1a), as a measure of macrophage function. In addition, the sera of lean and obese sera were plated on wells growing LNCaP
prostate cancer
cells to determine differences in mitogenicity. We found a greater concentration of
FGF-2
in the sera from obese Zucker rats compared to lean Zucker rats: 6.32+/-0.56 vs 3.48+/-0.34 pg/ml, respectively, P<0.05). We also demonstrated a greater concentration of VEGF in obese rat sera compared to lean sera: 54.4+/-4.1 vs 38.0+/-2.9 pg/mL, respectively, P<0.05). We detected a trend in mitogenic stimulation among LNCaP cells along the higher concentrations of the dose-response curve (0.72+/-0.06 vs 0.51+/-0.5). However, this was not statistically significant. In addition, we did not find a significant difference in MIP-1a macrophage activity levels between sera. To conclude, we speculate that the greater concentrations of VEGF and
FGF-2
in the sera of obese rodents vs lean rodents may account for some of the differences seen in obesity-related tumor growth seen in the human condition. However, the lack of any sera differences of immune function, as measured by macrophage activity, as well as no significant differences on mitogenic proliferation on LNCaP
prostate cancer
cells, suggests that other mechanisms may exist to explain differences seen in obesity-related prostate tumor biology.
Prostate Cancer
Prostatic Dis 2003
PMID:Immune function, mitogenicity, and angiogenic growth factor concentrations in lean and obese rodent sera: implications in obesity-related prostate tumor biology. 1466 68
This study investigated the hypothesis that, in benign prostatic hyperplasia (BPH), upregulated oestrogen receptors (ER) and the action of androgens differentially regulate expression of stromal growth factors. Eight human prostatic stromal cell strains were subjected to a procedure to upregulate their ER by exposing them to 1 micromol 17beta-estradiol for 10 days followed by passage and growth in the absence of steroids. Four of the cell strains instead received 100 nmol dihydrotestosterone for 48 h. Immunoexpression of ERalpha, AR and six growth factors was quantified by flow cytometry in each case. Expression of ERalpha was significantly increased in six of eight cell strains. Expressions of six growth factors (
FGF-2
, FGF-7, IGF-1, TGF-beta1 NGF and e NOS) were elevated but only for FGF-7 was it significant. There was a significant positive correlation between the change in ERalpha and the change in
FGF-2
and FGF-7, but not the other growth factors. Exposure to dihydrotestosterone reduced expression of ERalpha and all six growth factors, compared with oestrogen-treated cells but not significantly. It is concluded that upregulated ERalpha in prostatic stroma may have a greater modulating influence on synthesis of certain growth factors than the direct action of androgens and, by enhancing synthesis of
FGF-2
and FGF-7, could play a significant role in the development of BPH.
Prostate Cancer
Prostatic Dis 2004
PMID:Relationship between upregulated oestrogen receptors and expression of growth factors in cultured, human, prostatic stromal cells exposed to estradiol or dihydrotestosterone. 1499 40
Understanding processes regulating
prostate cancer
cell survival is critical to management of advanced disease. We used
prostate cancer
cell transfectants genetically modified to be deficient in either endogenous fibroblast growth factor (FGF-1) or endogenous
FGF-2
to examine FGF maintenance of transfectant survival and proliferation and
FGF-2
-regulated expression of transfectant growth arrest DNA damage (GADD) and growth arrest sequences (GAS) family genes (known modulators of cell cycle progression and survival) and the AS3 gene (an androgen-modulated effector of prostate cell proliferation). When propagated in the absence of exogenous FGFs,
FGF-2
-deficient transfectants undergo exponential death, whereas FGF-1-deficient transfectants proliferate. Exogenous FGF-1,
FGF-2
, FGF-7, or FGF-8 promote survival and proliferation of
FGF-2
-deficient transfectants and enhance FGF-1-deficient transfectant proliferation. Transfectants express FGF receptor FGFR1, FGFR2(IIIb), FGFR2(IIIc), and FGFR3 transcripts, findings consistent with the effects of exogenous FGFs.
FGF-2
-deficient transfectants express high levels of AS3, GADD45alpha, GADD45gamma, GAS8, and GAS11 transcripts and moderate levels of GADD153, GAS2, GAS3, and GAS6 transcripts and lack demonstrable GAS1 or GAS5 transcripts. FGF withdrawal-mediated death of
FGF-2
-deficient transfectants did not significantly affect cell AS3, GADD153, GADD45gamma, GAS2, GAS3, GAS7, GAS8, or GAS11 transcript content, whereas GADD45alpha and GAS6 transcript content was elevated. These studies establish that endogenous
FGF-2
dominantly regulates
prostate cancer
cell survival and proliferation and that exogenous FGFs may assume this function in the absence of endogenous
FGF-2
. Additionally, we provide the first evidence that FGFs regulate prostate GADD45alpha and GAS6 transcript content. The latter observations suggest that GADD45alpha and GAS6 proteins may be effectors of processes that regulate
prostate cancer
cell survival. Additional studies are required to examine this possibility in detail.
...
PMID:Exogenous fibroblast growth factors maintain viability, promote proliferation, and suppress GADD45alpha and GAS6 transcript content of prostate cancer cells genetically modified to lack endogenous FGF-2. 1556 81
Perlecan (Pln) is a major heparan sulfate proteoglycan (HSPG) of extracellular matrices and bone marrow stroma. Pln, via glycosaminoglycans in domains I and V, acts as a co-receptor for delivery of heparin binding growth factors (HBGFs) that support cancer growth and vascularization. Specifically, glycosaminoglycans bind HBGFs and activate HBGF receptors, including those for
FGF-2
and VEGF-A. The contribution of Pln to
prostate cancer
growth was tested using a ribozyme approach to knockdown Pln expression levels. Transfection into the androgen-independent, bone targeted
prostate cancer
line, C4-2B, and efficient stable knockdown of Pln was demonstrated by quantitative PCR, immunohistochemistry and immunoblotting. Three individually isolated subclones with 75-80% knockdown in Pln mRNA, protein expression and secretion into ECM were used to study in vitro growth responses to
FGF-2
and VEGF-A. While cells with normal Pln levels responded to both HBGFs, knockdown cells responded poorly. All lines responded to serum growth factors and IGF-I. Anchorage-independent growth assays showed reduced colony size and cohesiveness by all Pln deficient subclones compared to parental C4-2B cells. In vivo effects of Pln knockdown were measured by inoculating knockdown and control ribozyme transfected cell lines into athymic mice. A reduced growth rate, smaller tumor size, diminished vascularization and failure to elevate serum PSA characterized mice bearing Pln knockdown C4-2B cells. Poor vascularization correlated with reduced levels of VEGF-A secreted by Pln knockdown lines. We conclude that Pln is an essential ECM component involved in growth responses of metastatic
prostate cancer
cells to HBGFs deposited in local and metastatic microenvironment.
...
PMID:Perlecan knockdown in metastatic prostate cancer cells reduces heparin-binding growth factor responses in vitro and tumor growth in vivo. 1628 81
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