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Query: UMLS:C0376358 (
prostate cancer
)
59,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Protein inhibitor of activated STAT3 (PIAS3) is a specific inhibitor of signal transducer and activator of transcription 3 (STAT3). PIAS3 binds to STAT3 and inhibits its DNA-binding activity, and thereby STAT3-mediated gene activation.
PIAS1
, another member of the PIAS family, was recently shown to interact with the androgen receptor (AR), a nuclear hormone receptor that has an important role in both physiological and pathological processes, and acts as a cofactor for AR. Here we demonstrate that PIAS3 is expressed in
prostate cancer
cells and its expression is induced in response to dihydrotestosterone (DHT) treatment. Ectopic overexpression of PIAS3 suppressed AR-mediated gene activation induced by DHT-stimulation in LNCaP cells. We provide evidence that these activities were due to direct physical interactions between PIAS3 and AR. These results indicate that PIAS3 acts as a coregulator of AR signaling pathway in
prostate cancer
cells.
...
PMID:Protein inhibitor of activated STAT3 regulates androgen receptor signaling in prostate carcinoma cells. 1107 47
Androgen signaling influences the development and growth of prostate carcinoma. The transcriptional activity of androgen receptor (AR) is regulated by positive or negative transcriptional cofactors. We report here that
PIAS1
, PIAS3, and PIASy of the protein inhibitor of activated STAT (PIAS) family, which are expressed in human prostate, display distinct effects on AR-mediated gene activation in
prostate cancer
cells. While
PIAS1
and PIAS3 enhance the transcriptional activity of AR, PIASy acts as a potent inhibitor of AR in
prostate cancer
cells. The effects of PIAS proteins on AR are competitive. PIASy binds to AR but does not affect the DNA binding activity of AR. An NH2-terminal LXXLL signature motif of PIASy, although not required for PIASy-AR interaction, is essential for the transrepression activity of PIASy. Our results identify PIASy as a transcriptional corepressor of AR and suggest that different PIAS proteins have distinct effects on AR signaling in
prostate cancer
cells.
...
PMID:Distinct effects of PIAS proteins on androgen-mediated gene activation in prostate cancer cells. 1143 51
The androgen receptor (AR), a ligand-activated transcription factor of the steroid receptor superfamily, plays an important role in normal prostate growth and in
prostate cancer
. The recent identification of various AR co-factors prompted us to evaluate their possible roles in prostate tumorigenesis. To this end, we analyzed the expression of AR and eight of its co-factors by quantitative in situ RNA hybridization in 43 primary prostate cancers with different degrees of differentiation. Our results revealed nearly constant expression of AR and heterogeneous expression of AR co-factors, with increased expression of
PIAS1
and Ran/ARA24, decreased expression of ELE1/ARA70, and no change in TMF1/ARA160, ARA54, SRC1, or TRAP220. Interestingly, whereas TMF1/ARA160, ELE1/ARA70, ARA54, RAN/ARA24, and
PIAS1
were preferentially expressed in epithelial cells, another co-factor, ARA55, was preferentially expressed in stromal cells. Although the changes in levels of these co-activators did not correlate with Gleason score, their occurrence in high-grade prostatic intraepithelial neoplasia, suggests their involvement in initiation (or an early stage) of cancer. In addition, human prostate tumor cell proliferation and colony formation were markedly reduced by ELE1/ATRA70. Together, these findings indicate that changes in levels of expression of AR co-factors may play important, yet different, roles in prostate tumorigenesis.
...
PMID:Heterogeneous expression and functions of androgen receptor co-factors in primary prostate cancer. 1236 19
Covalent modification by small ubiquitin-related modifiers (SUMOs) is an important means to regulate dynamic residency of transcription factors within nuclear compartments. Here, we identify a multi-C(2)H(2)-type zinc finger protein (ZNF), ZNF451, as a novel nuclear protein that can be associated with promyelocytic leukemia bodies. In keeping with its interaction with SUMO E2 conjugase Ubc9 and SUMOs, ZNF451 is covalently modified by SUMOs (sumoylated) at several, albeit nonconsensus, sites. Interestingly, noncovalent SUMO-binding activity of ZNF451 (SUMO-interacting motif) is also important for its sumoylation. SUMO modifications regulate the nuclear compartmentalization of ZNF451, since coexpression of ZNF451 with SUMO-specific proteases SENP1 or SENP2, both capable of desumoylating the protein, redistributes ZNF451 from nuclear domains to speckles and nucleoplasm. Interaction of ZNF451 with
PIAS1
(protein inhibitor of activated STAT 1) is not manifested as
PIAS1
's E3 SUMO ligase activity towards ZNF451 but results in disintegration of ZNF451 nuclear domains and recruitment of ZNF451 to androgen receptor (AR) speckles. ZNF451 interacts weakly, but in a SUMO-1-enhanced fashion, with AR. ZNF451 does not harbor an intrinsic transcription activation function, but interestingly, ablation of endogenous ZNF451 in
prostate cancer
cells significantly decreases expression of several AR target genes. Thus, we suggest that ZNF451 exerts its effects via SUMO modification machinery and trafficking of transcription regulators between promyelocytic leukemia bodies and nucleoplasm.
...
PMID:ZNF451 is a novel PML body- and SUMO-associated transcriptional coregulator. 1865 83
Prostate cancer
development and progression are associated with alterations in expression and function of elements of cytokine networks, some of which can activate multiple signaling pathways. Protein inhibitor of activated signal transducers and activators of transcription (PIAS)1, a regulator of cytokine signaling, may be implicated in the modulation of cellular events during carcinogenesis. This study was designed to investigate the functional significance of
PIAS1
in models of human
prostate cancer
. We demonstrate for the first time that
PIAS1
protein expression is significantly higher in malignant areas of clinical
prostate cancer
specimens than in normal tissues, thus suggesting a growth-promoting role for
PIAS1
. Expression of
PIAS1
was observed in the majority of tested
prostate cancer
cell lines. In addition, we investigated the mechanism by which
PIAS1
might promote
prostate cancer
and found that down-regulation of
PIAS1
leads to decreased proliferation and colony formation ability of
prostate cancer
cell lines. This decrease correlates with cell cycle arrest in the G0/G1 phase, which is mediated by increased expression of p21(CIP1/WAF1). Furthermore,
PIAS1
overexpression positively influences cell cycle progression and thereby stimulates proliferation, which can be mechanistically explained by a decrease in the levels of cellular p21. Taken together, our data reveal an important new role for
PIAS1
in the regulation of cell proliferation in
prostate cancer
.
...
PMID:PIAS1 is increased in human prostate cancer and enhances proliferation through inhibition of p21. 2244 52
The forkhead box protein A2 (FOXA2) is an important regulator of glucose and lipid metabolism and organismal energy balance. Little is known about how FOXA2 protein expression and activity are regulated by post-translational modifications. We have identified that FOXA2 is post-translationally modified by covalent attachment of a small ubiquitin related modifier-1 (SUMO-1) and mapped the sumoylation site to the amino acid lysine 6 (K6). Preventing sumoylation by mutating the SUMO acceptor K6 to arginine resulted in downregulation of FOXA2 protein but not RNA expression in INS-1E insulinoma cells. K6R mutation also downregulated FOXA2 protein levels in HepG2 hepatocellular carcinoma cells, HCT116 colon cancer cells and LNCaP and DU145
prostate cancer
cells. Further, interfering with FOXA2 sumoylation through siRNA mediated knockdown of UBC9, an essential SUMO E2 conjugase, resulted in downregulation of FOXA2 protein levels. Stability of sumoylation deficient FOXA2K6R mutant protein was restored when SUMO-1 was fused in-frame. FOXA2 sumoylation and FOXA2 protein levels were increased by
PIAS1
SUMO ligase but not a SUMO ligase activity deficient
PIAS1
mutant. Although expressed at lower levels, sumoylation deficient FOXA2K6R mutant protein was detectable in the nucleus indicating that FOXA2 nuclear localization is independent of sumoylation. Sumoylation increased the transcriptional activity of FOXA2 on Pdx-1 area I enhancer. Together, our results show that sumoylation regulates FOXA2 protein expression and activity.
...
PMID:Forkhead box protein A2 (FOXA2) protein stability and activity are regulated by sumoylation. 2311 20
Prostate cancer
is one of the most frequently diagnosed cancers among men. Dietary intake of nutrients is considered crucial for preventing the initiation of events leading to the development of carcinoma. Many dietary compounds have been considered to contribute to cancer prevention including zinc, which has a pivotal role in modulating apoptosis. However, the mechanism for zinc-mediated
prostate cancer
chemoprevention remains enigmatic. In this study, we investigated the therapeutic effect of zinc in
prostate cancer
chemoprevention for the first time. Exposure to zinc induced apoptosis and resulted in transactivation of p21(WAF1/Cip1) in a Smad-dependent and p53-independent manner in
prostate cancer
cells. Smad2 and
PIAS1
proteins were significantly upregulated resulting in dramatically increased interactions between Smad2/4 and
PIAS1
in the presence of zinc in LNCaP cells. Furthermore, it was found that the zinc-induced Smad4/2/
PIAS1
transcriptional complex is responsible for Smad4 binding to SBE1 and SBE3 regions within the p21(WAF1/Cip1) promoter. Exogenous expression of Smad2/4 and
PIAS1
promotes zinc-induced apoptosis concomitant with Smad4 nuclear translocation, whereas endogenous Smad2/4 silencing inhibited zinc-induced apoptosis accompanying apparent p21(WAF1/Cip1) reduction. Moreover, the knockdown of
PIAS1
expression attenuated the zinc-induced recruitment of Smad4 on the p21(WAF1/Cip1) promoter. The colony formation experiments demonstrate that
PIAS1
and Smad2/4 silencing could attenuate zinc apoptotic effects, with a proliferation of promoting effects. We further demonstrate the correlation of apoptotic sensitivity to zinc and Smad4 and
PIAS1
in multiple cancer cell lines, demonstrating that the important roles of
PIAS1
, Smad2, and Smad4 in zinc-induced cell death and p21(WAF1/Cip1) transactivation were common biological events in different cancer cell lines. Our results suggest a new avenue for regulation of zinc-induced apoptosis, and provide a model that demonstrates zinc endorses the Smad2/4/
PIAS1
complex to activate the p21(WAF1/Cip1) gene that mediates apoptosis.
...
PMID:PIAS1-modulated Smad2/4 complex activation is involved in zinc-induced cancer cell apoptosis. 2405 79
Occurrence of an inherent or acquired resistance to the chemotherapeutic drug docetaxel is a major burden for patients suffering from different kinds of malignancies, including castration resistant
prostate cancer
(PCa). In the present study we address the question whether
PIAS1
targeting can be used to establish a basis for improved PCa treatment. The expression status and functional relevance of
PIAS1
was evaluated in primary tumors, in metastatic lesions, in tissue of patients after docetaxel chemotherapy, and in docetaxel resistant cells. Patient data were complemented by functional studies on
PIAS1
knockdown in vitro as well as in chicken chorioallantoic membrane and mouse xenograft in vivo models.
PIAS1
was found to be overexpressed in local and metastatic PCa and its expression was further elevated in tumors after docetaxel treatment as well as in docetaxel resistant cells. Furthermore,
PIAS1
knockdown experiments revealed an increased expression of tumor suppressor p21 and declined expression of anti-apoptotic protein Mcl1, which caused diminished cell proliferation and tumor growth in vitro and in vivo. In summary, the presented data indicate that
PIAS1
is crucial for parental and docetaxel resistant PCa cell survival and is therefore a promising new target for treatment of primary, metastatic, and chemotherapy resistant PCa.
...
PMID:PIAS1 is a crucial factor for prostate cancer cell survival and a valid target in docetaxel resistant cells. 2547 38
Androgen receptor (AR) is a ligand-activated transcription factor that plays a central role in the development and growth of prostate carcinoma.
PIAS1
is an AR- and SUMO-interacting protein and a putative transcriptional coregulator overexpressed in
prostate cancer
. To study the importance of
PIAS1
for the androgen-regulated transcriptome of VCaP
prostate cancer
cells, we silenced its expression by RNAi. Transcriptome analyses revealed that a subset of the AR-regulated genes is significantly influenced, either activated or repressed, by
PIAS1
depletion. Interestingly,
PIAS1
depletion also exposed a new set of genes to androgen regulation, suggesting that
PIAS1
can mask distinct genomic loci from AR access. In keeping with gene expression data, silencing of
PIAS1
attenuated VCaP cell proliferation. ChIP-seq analyses showed that
PIAS1
interacts with AR at chromatin sites harboring also SUMO2/3 and surrounded by H3K4me2; androgen exposure increased the number of
PIAS1
-occupying sites, resulting in nearly complete overlap with AR chromatin binding events.
PIAS1
interacted also with the pioneer factor FOXA1. Of note,
PIAS1
depletion affected AR chromatin occupancy at binding sites enriched for HOXD13 and GATA motifs. Taken together,
PIAS1
is a genuine chromatin-bound AR coregulator that functions in a target gene selective fashion to regulate
prostate cancer
cell growth.
...
PMID:SUMO ligase PIAS1 functions as a target gene selective androgen receptor coregulator on prostate cancer cell chromatin. 2555 17
We have analyzed androgen receptor (AR) chromatin binding sites (ARBs) and androgen-regulated transcriptome in estrogen receptor negative molecular apocrine breast cancer cells. These analyses revealed that 42% of ARBs and 39% androgen-regulated transcripts in MDA-MB453 cells have counterparts in VCaP
prostate cancer
cells. Pathway analyses showed a similar enrichment of molecular and cellular functions among AR targets in both breast and
prostate cancer
cells, with cellular growth and proliferation being among the most enriched functions. Silencing of the coregulator SUMO ligase
PIAS1
in MDA-MB453 cells influenced AR function in a target-selective fashion. An anti-apoptotic effect of the silencing suggests involvement of the
PIAS1
in the regulation of cell death and survival pathways. In sum, apocrine breast cancer and
prostate cancer
cells share a core AR cistrome and target gene signature linked to cancer cell growth, and
PIAS1
plays a similar coregulatory role for AR in both cancer cell types.
...
PMID:Androgen receptor- and PIAS1-regulated gene programs in molecular apocrine breast cancer cells. 2621 22
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