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Query: UMLS:C0376358 (
prostate cancer
)
59,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
EGR1
transactivator is overexpressed in
prostate cancer
, and its expression pattern suggests that
EGR1
could potentially regulate a number of steps involved in initiation and progression of
prostate cancer
, such as mitogenesis, invasiveness, angiogenesis, and metastasis. To identify potential
EGR1
target genes in an unbiased manner, we have utilized adenovirus-mediated expression of
EGR1
in a
prostate cancer
cell line to identify specific genes that are induced by
EGR1
. Using oligonucleotide arrays, a number of
EGR1
-regulated genes were identified and their regulation was confirmed by quantitative reverse transcription-polymerase chain reaction analysis. One of the largest gene classes identified in this screen includes several neuroendocrine-associated genes (neuron-specific enolase, neurogranin), suggesting that
EGR1
overexpression may contribute to the neuroendocrine differentiation that often accompanies
prostate cancer
progression. This screen also identified several growth factors such as insulin-like growth factor-II, platelet-derived growth factor-A, and transforming growth factor-beta1, which have previously been implicated in enhancing tumor progression. The insulin-like growth factor-II gene lies within the 11p15.5 chromosomal locus, which contains a number of other imprinted genes, and
EGR1
expression was found to induce at least two other genes in this locus (IPL, p57(KIP2)). Based on our results, coupling adenoviral overexpression with microarray and quantitative reverse transcription-polymerase chain reaction analyses could be a versatile strategy for identifying target genes of transactivators.
...
PMID:EGR1 target genes in prostate carcinoma cells identified by microarray analysis. 1098 81
The transcription factor
early growth response protein 1
(
EGR1
) is overexpressed in a majority of human prostate cancers and is implicated in the regulation of several genes important for prostate tumor progression. Here we have assessed the effect of Egr1 deficiency on tumor development in two transgenic mouse models of
prostate cancer
(CR2-T-Ag and TRAMP). Using a combination of high-resolution magnetic resonance imaging and histopathological and survival analyses, we show that tumor progression was significantly impaired in Egr1-/- mice. Tumor initiation and tumor growth rate were not affected by the lack of Egr1; however, Egr1 deficiency significantly delayed the progression from prostatic intra-epithelial neoplasia to invasive carcinoma. These results indicate a unique role for Egr1 in regulating the transition from localized, carcinoma in situ to invasive carcinoma.
...
PMID:Impaired prostate tumorigenesis in Egr1-deficient mice. 1113 23
The transcription factor
EGR1
is frequently overexpressed in human
prostate cancer
and regulates the expression of several genes important for tumor progression. In addition, mice lacking the Egr1 gene show a defect in prostate tumorigenesis. NAB2 is a novel corepressor molecule that modulates
EGR1
activity and is induced by the same stimuli that induce
EGR1
. The human NAB2 gene has been localized to 12q13.3-14.1, within a chromosomal region that is thought to harbor a prostate tumor suppressor. We have examined the expression of NAB2 in human prostate carcinoma specimens. We show here that NAB2 protein expression is lost in a majority of primary prostate carcinoma specimens, including many samples that have high
EGR1
levels. This loss occurs early in the tumorigenic process and is sustained, as it is seen in precursor prostatic intraepithelial neoplasia lesions as well as in metastases. Furthermore, loss of NAB2 did not correlate with the tumor grade or stage. Our findings suggest that high levels of
EGR1
coupled with low levels of NAB2 can result in high, unrestrained
EGR1
transcriptional activity in human prostate cancers.
...
PMID:Frequent and early loss of the EGR1 corepressor NAB2 in human prostate carcinoma. 1156 22
Neuroendocrine (NE) cells are found in prostate tumors, and their incidence is considered a promising prognostic indicator for the development of androgen-independent disease. NE cells are derived from non-NE
prostate cancer
cells and secrete factors that can act in a paracrine manner to stimulate the survival, growth, motility, and metastatic potential of prostatic carcinoma cells. Factors such as IL-6, epinephrine, and forskolin induce NE differentiation in
prostate cancer
cells; the mechanisms involve increases in intracellular cAMP, protein kinase A (PKA) activation and reduced intracellular calcium levels. Transcription factors implicated in the acquisition of NE characteristics by
prostate cancer
cells include STAT3, CREB,
EGR1
, c-fos, and NF-kappaB. Expression of Chromogranin A, neuron-specific enolase, bcl-2, and the androgen receptor are modulated during NE differentiation and serve as molecular markers for NE cells. Most importantly, NE cells secrete neuropeptides, such as bombesin, neurotensin, PTHrP, serotonin, and calcitonin, which trigger growth and survival responses in androgen-independent
prostate cancer
cells.
Prostate cancer
cell receptors that play a role in these processes include the gastrin-releasing peptide (GRP) receptor, neurotensin receptors, and the epidermal growth-factor receptor (EGFR). Signal-transduction molecules activated by these neuropeptides include Src, focal adhesion kinase (FAK), ERK, and PI3K/Akt, with subsequent activation of Elk-1, NF-kappaB, and c-myc transcription factors. A multitude of genes are then expressed by
prostate cancer
cells, which are involved in proliferation, anti-apoptosis, migration, metastasis, and angiogenesis. Targeting of these pathways at multiple levels can be exploited to inhibit the process by which NE cells contribute to the progression of androgen-independent, treatment-refractory
prostate cancer
.
...
PMID:Neuroendocrine cells in prostate cancer. 1566 58
During anti-hormonal therapy for
prostate cancer
, a major clinical problem is the development of androgen-independent disease. The molecular mechanisms underlying the transition to androgen independence are the subject of intense investigation. In many prostate tumors, the activity of the transcription factor
EGR1
(early growth response gene 1) is elevated due to overexpression of
EGR1
and/or downregulation of the co-repressor, NAB2. We have modeled these alterations by expressing active
EGR1
that does not bind NAB co-repressor proteins in human prostate carcinoma cells. We show here that active
EGR1
expression enhances the androgen-independent growth of prostate carcinoma cells in vitro and in vivo. Employing RNAi and expression analyses, we show that
EGR1
mediates its effects, at least in part, through the AR signaling pathway. These findings support a role for enhanced
EGR1
activity in regulating the transition from androgen-dependent to androgen-independent
prostate cancer
.
...
PMID:Enhanced EGR1 activity promotes the growth of prostate cancer cells in an androgen-depleted environment. 1655 52
Early growth response (EGR) transactivators act as critical regulators of several physiological processes, including peripheral nerve myelination and progression of
prostate cancer
. The NAB1 and NAB2 (NGFI-A/
EGR1
-binding protein) transcriptional corepressors directly interact with three EGR family members (Egr1/NGFI-A/zif268, Egr2/Krox20, and Egr3) and repress activation of their target promoters. To understand the molecular mechanisms underlying NAB repression, we found that EGR activity is modulated by at least two repression domains within NAB2, one of which uniquely requires interaction with the CHD4 (chromodomain helicase DNA-binding protein 4) subunit of the NuRD (nucleosome remodeling and deacetylase) chromatin remodeling complex. Both NAB proteins can bind either CHD3 or CHD4, indicating that the interaction is conserved among these two protein families. Furthermore, we show that repression of the endogenous Rad gene by NAB2 involves interaction with CHD4 and demonstrate colocalization of NAB2 and CHD4 on the Rad promoter in myelinating Schwann cells. Finally, we show that interaction with CHD4 is regulated by alternative splicing of the NAB2 mRNA.
...
PMID:NAB2 represses transcription by interacting with the CHD4 subunit of the nucleosome remodeling and deacetylase (NuRD) complex. 1657 54
Transcription factor E2F1 has been implicated in both apoptosis-promoting and apoptosis-suppressing effects. However, factors that mediate its antiapoptotic effects are still not identified. Using prostate tumor-derived cell lines, we showed here that E2F1 activated the expression of transcription factor
EGR1
for promoting cell survival. E2F1 up-regulated the production of
EGR1
-induced growth factors, epidermal growth factor, platelet-derived growth factor, and insulin-like growth factor II, which in turn activated the phosphoinositide-3-kinase/Akt pathway to resist drug-induced apoptosis. Moreover, E2F1 directly induced the transcription of the Egr1 gene using the kappaB site located in its proximal promoter. E2F1 physically interacted with the RelA subunit of nuclear factor-kappaB and modulated its transactivity to fully activate
EGR1
transcription. Together, these studies uncovered a novel mechanism for E2F1-induced suppression of apoptosis in
prostate cancer
. [Cancer Res 2009;69(6):2324-31].
...
PMID:E2F1 Induces tumor cell survival via nuclear factor-kappaB-dependent induction of EGR1 transcription in prostate cancer cells. 1927 47
Field cancerization denotes the occurrence of aberrant cells in tumor adjacent histologically normal tissues (TAHN). To characterize field cancerization in
prostate cancer
, we used RNA from paired patient tumor and TAHN tissues excised at 1 cm from the tumor margin and subjected them to microarray expression analysis comparative to RNA from normal cancer-free prostatic tissues. Eleven novel transcripts were significantly up-regulated in TAHN tissues and also in tumors. Expression of
early growth response protein 1
, tristetraprolin, testican, and fatty acid synthase, mutually up-regulated at different levels in tumors and TAHN tissues was confirmed by quantitative reverse transcriptase PCR in the experimental and in an independent validation set. This study offers proof of expressional changes in field cancerized prostatic TAHN tissues at defined distances from tumor margins. Markers of field cancerized prostatic tissues could be early diagnostic indicators in biopsies after abnormal prostate-specific antigen and digital rectal examination and independent of cancerous histology and/or early targets for chemo-preventive intervention in pre-malignant disease.
...
PMID:Differential gene expression in tumor adjacent histologically normal prostatic tissue indicates field cancerization. 1963 74
Early growth response-1 (Egr-1) is overexpressed in human prostate tumors and contributes to cancer progression. On the other hand, mutation of p53 is associated with advanced
prostate cancer
, as well as with metastasis and hormone independence. This study shows that in prostate cell lines in culture, Egr-1 overexpression correlated with an alteration of p53 activity because of the expression of SV40 large T-antigen or because of a mutation in the TP53 gene. In cells containing altered p53 activity, Egr-1 expression was abolished by pharmacological inhibition or RNAi silencing of p53. Although forced expression of wild-type p53 was not sufficient to trigger Egr-1 transcription, four different mutants of p53 were shown to induce Egr-1. Direct binding of p53 to the
EGR1
promoter could not be detected. Instead, Egr-1 transcription was driven by the ERK1/2 pathway, as it was abrogated by specific inhibitors of MEK. Egr-1 increased the transcription of HB-EGF (epidermal growth factor), amphiregulin and epiregulin, resulting in autocrine activation of the EGF receptor (EGFR) and downstream MEK/ERK cascade. Thus, mutant p53 initiates a feedback loop that involves ERK1/2-mediated transactivation of Egr-1, which in turn increases the secretion of EGFR ligands and stimulates the EGFR signaling pathway. Finally, p53 may further regulate this feedback loop by altering the level of EGFR expression.
...
PMID:Mutant p53 initiates a feedback loop that involves Egr-1/EGF receptor/ERK in prostate cancer cells. 2019 Aug 20
Sprouty1 (Spry1) is a negative regulator of fibroblast growth factor signaling with a potential tumor suppressor function in
prostate cancer
(PCa). Spry1 is downregulated in human PCa, and Spry1 expression can markedly inhibit PCa proliferation in vitro. We have reported DNA methylation as a mechanism for controlling Spry1 expression. However, promoter methylation does not seem to explain gene silencing in all PCa cases studied to suggest other mechanisms of gene inactivation, such as alterations in trans-acting factors and/or post-transcriptional activity may be responsible for the decreased expression in those cases. Binding sites for Wilm's tumor (WT1) transcription factors
EGR1
, EGR3 and WTE are highly conserved between the mouse and human Spry1 promoter regions, suggesting an evolutionary conserved mechanism(s) involving WT1 and EGR in Spry1 regulation. Spry1 mRNA contains multiple microRNA (miRNA) binding sites in its 3'UTR region suggesting post-transcriptional control. We demonstrate that Spry1 is a target for miR-21-mediated gene silencing. miRNA-based therapeutic approaches to treat cancer are emerging. Spry1 is highly regulated by miRNAs and could potentially be an excellent candidate for such approaches.
Prostate Cancer
Prostatic Dis 2011 Dec
PMID:Transcriptional and post-transcriptional regulation of Sprouty1, a receptor tyrosine kinase inhibitor in prostate cancer. 2182 97
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