Gene/Protein
Disease
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Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hyaluronan, a macromolecular carbohydrate polymer of the extracellular matrix is prominent early in embryogenesis, coinciding with rapid tissue growth. CD44, the predominant receptor for hyaluronan on vertebrate cells, is a variably expressed transmembrane glycoprotein. Mouse anterior prostate glands obtained at various postnatal time points were examined for the expression of hyaluronan and CD44. Reverse
transcriptase
polymerase chain reaction analysis was used to map the temporal regulation of specific CD44 variant isoforms. In each age group, hyaluronan was localized exclusively in the stromal matrix. Hyaluronan was greatly reduced in the later ages and was entirely absent around the developmentally quiescent proximal regions of the ducts. Early in prostate development, CD44 was prominent in the mesenchyme. However, in the later phases, CD44 expression became associated with membranes of epithelial cells. The role of hyaluronan-CD44 interactions in ductal branching morphogenesis was studied by serum-free organ culture of mouse anterior prostate. In the presence of optimal levels of testosterone, the organs underwent ductal branching morphogenesis. Treatment with either neutralizing anti-CD44 antibodies, hyaluronan hexasaccharides or the enzyme hyaluronidase inhibited androgen-stimulated ductal branching morphogenesis. These results are suggestive of the significant role played by hyaluronan-CD44 interactions in mediating
androgen-induced
prostatic growth and morphogenesis.
...
PMID:Hyaluronan is a prerequisite for ductal branching morphogenesis. 937 96
Testicular androgens induce the proliferation and differentiation of prostatic epithelial cells by regulating the expression of androgen target genes. The use of subtractive hybridization to isolate genes that are differentially expressed during the early phase of
androgen-induced
prostatic regrowth in castrated mice resulted in identification of the murine caltrin gene. Caltrin messenger RNA (mRNA) was highly expressed in the prostates of intact mice. Five weeks following castration of mice, steady state caltrin mRNA levels were reduced by 70%. Within 12 hours of administration of pharmacological doses of testosterone enanthate, steady state caltrin mRNA levels were elevated and increased to 90% of levels found in intact mice by 24 hours. Reverse
transcriptase
-polymerase chain reaction analysis of prostate tissue localized caltrin mRNA transcripts to the dorsal but not the ventral or lateral prostate. Within the dorsal prostate, in situ hybridization always localized caltrin mRNAs to the prostatic epithelial cells. Testosterone-induced increases in caltrin mRNA levels were detected prior to S-phase progression and initiation of proliferation in this cell population. Caltrin has been demonstrated previously to function as a calcium transport inhibitor at the plasma membrane. Findings of this study indicate that caltrin is highly expressed and androgen-regulated in the murine prostate, where it is associated with
androgen-induced
proliferation and differentiation of epithelial cells.
...
PMID:Regulation of caltrin mRNA expression by androgens in the murine prostate. 1133 Jun 45
We have used the chromatin immunoprecipitation technique to analyze the formation of the androgen receptor (AR) transcription complex onto prostate-specific antigen (PSA) and kallikrein 2 promoters in LNCaP cells. Our results show that loading of holo-AR and recruitment of
RNA polymerase II
to the promoters occur transiently. The cyclic nature of AR transcription complex assembly is also illustrated by transient association of coactivators GRIP1 and CREB-binding protein and acetylated histone H3 with the PSA promoter. Treatment of cells with the pure antiandrogen bicalutamide also elicits occupancy of the promoter by AR. In contrast to the agonist-liganded AR, bicalutamide-bound receptor is not capable of recruiting polymerase II, GRIP1, or CREB-binding protein, indicating that the conformation of AR bound to anti-androgen is not competent to assemble transcription complexes. Proteasome is involved in the regulation of AR-dependent transcription, as a proteasome inhibitor, MG-132, prevents the release of the receptor from the PSA promoter, and it also blocks the
androgen-induced
PSA mRNA accumulation. Furthermore, occupancy of the PSA promoter by the 19 S proteasome subcomplex parallels that by AR. Collectively, formation of the AR transcription complex, encompassing AR, polymerase II, and coactivators, on a regulated promoter is a cyclic process involving proteasome function.
...
PMID:Involvement of proteasome in the dynamic assembly of the androgen receptor transcription complex. 1237 34
Forskolin was tested for its co-activating ability to enhance the function of fibroblast growth factor (FGF) 8 on dopaminergic (DAergic) differentiation from human fetal mesencephalic neural progenitor cells (NPCs). When NPCs were treated with
FGF8
alone, the DAergic phenotype was expressed lightly. The addition of 10 microM forskolin increased the number of DAergic neurons, cooperating with 50 ng/ml
FGF8
. These cells produced neurotransmitter DA, which was measured by high-performance liquid chromatography. Reverse
transcriptase
-polymerase chain reaction analysis demonstrated that differentiated cells expressed DAergic development-relative genes tyrosine hydroxylase (TH), nuclear receptor-related factor 1 (Nurr1) and D2 receptor (D2R), indicating that matured DAergic neurons could be obtained under these present conditions. The results suggest that forskolin plus
FGF8
may contribute to more efficient production of DAergic neurons from human-derived NPCs for therapy of neurodegenerative diseases.
...
PMID:Forskolin cooperating with growth factor on generation of dopaminergic neurons from human fetal mesencephalic neural progenitor cells. 1519 67
Posttranslational modifications of histones such as methylation, acetylation and phosphorylation regulate chromatin structure and gene expression. Here we show that protein-kinase-C-related kinase 1 (PRK1) phosphorylates histone H3 at threonine 11 (H3T11) upon ligand-dependent recruitment to androgen receptor target genes. PRK1 is pivotal to androgen receptor function because PRK1 knockdown or inhibition impedes androgen receptor-dependent transcription. Blocking PRK1 function abrogates
androgen-induced
H3T11 phosphorylation and inhibits
androgen-induced
demethylation of histone H3. Moreover, serine-5-phosphorylated
RNA polymerase II
is no longer observed at androgen receptor target promoters. Phosphorylation of H3T11 by PRK1 accelerates demethylation by the Jumonji C (JmjC)-domain-containing protein JMJD2C. Thus, phosphorylation of H3T11 by PRK1 establishes a novel chromatin mark for gene activation, identifying PRK1 as a gatekeeper of androgen receptor-dependent transcription. Importantly, levels of PRK1 and phosphorylated H3T11 correlate with Gleason scores of prostate carcinomas. Finally, inhibition of PRK1 blocks proliferation of androgen receptor-induced tumour cell proliferation, making PRK1 a promising therapeutic target.
...
PMID:Phosphorylation of histone H3 at threonine 11 establishes a novel chromatin mark for transcriptional regulation. 1817 24
In species of the frog genus Xenopus, lens regeneration occurs through a process of transdifferentiation, in which cornea epithelial cells presumably undergo dedifferentiation and subsequently redifferentiate to form a new lens. Experimental studies have shown that the retina provides the key signal required to trigger this process once the original lens is removed. A previous study showed that addition of an exogenous fibroblast growth factor (i.e., FGF1 protein) could initiate transdifferentiation of cornea epithelial cells in culture. To determine the role of FGF signaling in X. laevis lens regeneration, we have examined the presence of specific FGFs and their receptors (FGFRs) during this process and evaluated the necessity of FGFR signaling. Reverse
transcriptase
-polymerase chain reaction analyses reveal that a number of FGF family members are expressed in cornea epithelium and retinal tissues both before and during the process of lens regeneration. Of these, FGF1,
FGF8
, and FGF9 are expressed principally in retinal tissue and not in the cornea epithelium. Hence, these ligands could represent key signaling factors originating from the retina that trigger regeneration. The results of experiments using an in vitro eye culture system and an FGFR inhibitor (SU5402) suggest that FGFR signaling is required for lens regeneration in Xenopus.
...
PMID:FGF signaling is required for lens regeneration in Xenopus laevis. 2187 16
The protein acetyltransferases p300 and cAMP response element-binding protein binding protein (CBP) are homologous, ubiquitously expressed proteins that interact with hundreds of proteins involved in transcriptional regulation and are involved globally as transcriptional coregulators. Although these two proteins acetylate and interact with overlapping sets of proteins, we found that p300 and CBP contribute to
androgen-induced
regulation of distinct sets of genes in C4-2B prostate cancer cells, a model of advanced prostate cancer. CBP cannot compensate for the loss of p300 to support
androgen-induced
expression of many genes, such as TMPRSS2 and PSA. Global gene expression analysis indicated that 47% of androgen-regulated genes are p300-dependent in these cells, whereas, surprisingly, only 0.3% of them are CBP-dependent. Chromatin immunoprecipitation analysis after depletion of cellular p300 indicated that p300 is required for
androgen-induced
acetylation of histones H3 and H4, methylation of histone H3 at Lys-4, and recruitment of TATA box binding protein (TBP) and
RNA polymerase II
, but not recruitment of the androgen receptor, on the TMPRSS2 gene in response to androgen. Thus, p300 is the dominant coregulator of the CBP/p300 pair for androgen-regulated gene expression in C4-2B cells. p300 is required at an early stage of chromatin remodeling and transcription complex assembly after binding of androgen receptor to the gene but before many critical histone modifications occur.
...
PMID:Selective roles for cAMP response element-binding protein binding protein and p300 protein as coregulators for androgen-regulated gene expression in advanced prostate cancer cells. 2217 11
The androgen receptor (AR) signaling axis plays a key role in the pathogenesis of prostate cancer. In this study, we found that the protein tyrosine phosphatase PTP1B, a well-established regulator of metabolic signaling, was induced after androgen stimulation of AR-expressing prostate cancer cells. PTP1B induction by androgen occurred at the mRNA and protein levels to increase PTP1B activity. High-resolution chromosome mapping revealed AR recruitment to two response elements within the first intron of the PTP1B encoding gene PTPN1, correlating with an AR-mediated increase in
RNA polymerase II
recruitment to the PTPN1 transcriptional start site. We found that PTPN1 and AR genes were coamplified in metastatic tumors and that PTPN1 amplification was associated with a subset of high-risk primary tumors. Functionally, PTP1B depletion delayed the growth of androgen-dependent human prostate tumors and impaired
androgen-induced
cell migration and invasion in vitro. However, PTP1B was also required for optimal cell migration of androgen-independent cells. Collectively, our results established the AR as a transcriptional regulator of PTPN1 transcription and implicated PTP1B in a tumor-promoting role in prostate cancer. Our findings support the preclinical testing of PTP1B inhibitors for prostate cancer treatment.
...
PMID:PTP1B is an androgen receptor-regulated phosphatase that promotes the progression of prostate cancer. 2228 56
Androgen receptor (AR), a ligand-dependent transcription factor, plays a critical role in prostate cancer onset and progression, and its transcriptional function is mediated largely by distinct nuclear receptor co-regulators. Here, we show that cell cycle and apoptosis regulator 1 (CCAR1) functions as an AR co-activator. CCAR1 interacted with and enhanced the transcriptional activity of AR. Depletion of CCAR1 caused reduction in androgen-dependent expression of a subset of AR target genes. We further showed that CCAR1 is required for recruitment of AR, MED1 and
RNA polymerase II
to the enhancers of AR target genes and for
androgen-induced
long-range prostate specific antigen enhancer-promoter interaction. The molecular mechanism underlying CCAR1 function in AR-mediated transcription involves CCAR1-mediated enhanced recruitment of GATA2, a pioneer factor for AR, to AR-binding sites. CCAR1 stabilized the interaction between AR and GATA2 by interacting directly with both proteins, thereby facilitating AR and GATA2 occupancy on the enhancers. Furthermore, CCAR1 depletion inhibited the growth, migration, invasion of prostate cancer cells and reduced the tumorigenicity of prostate cancer cells in vivo. Our results firmly established CCAR1 as an AR co-activator that plays a key role in AR transcription complex assembly and has an important physiological role in androgen signaling and prostate tumorigenesis.
...
PMID:CCAR1 promotes chromatin loading of androgen receptor (AR) transcription complex by stabilizing the association between AR and GATA2. 2388 38
Centrins (Cetns) are highly conserved, widely expressed, and multifunctional Ca(2+)-binding eukaryotic signature proteins best known for their roles in ciliogenesis and as critical components of the global genome nucleotide excision repair system. Two distinct Cetn subtypes, Cetn2-like and Cetn3-like, have been recognized and implicated in a range of cellular processes. In the course of morpholino-based loss of function studies in Xenopus laevis, we have identified a previously unreported Cetn2-specific function, namely in fibroblast growth factor (FGF) mediated signaling, specifically through the regulation of FGF and FGF receptor RNA levels. Cetn2 was found associated with the
RNA polymerase II
binding sites of the Cetn2-regulated
FGF8
and FGFR1a genes, but not at the promoter of a gene (BMP4) whose expression was altered indirectly in Cent2 morphant embryos. These observations point to a previously unexpected role of Cetn2 in the regulation of gene expression and embryonic development.
...
PMID:Centrin-2 (Cetn2) mediated regulation of FGF/FGFR gene expression in Xenopus. 2601 13
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