Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Androgens have been implicated in mediating disease escalation in autosomal dominant polycystic kidney disease (ADPKD). Dihydrotestosterone (DHT), an agonist, and flutamide (FLT), an antagonist, were administered to Han:SPRD rats with ADPKD, and the role of androgen receptor (AR) abundance and activation on the enlargement and function of cystic kidneys was evaluated. Renal AR abundance determined by immunoblots in 8- to 10-wk-old Cy/+ male rats was naturally increased four-fold above that of littermate +/+ controls. In male Cy/+, castration decreased AR abundance below control +/+ by -89.4%, and AR expression within cyst mural epithelial cells was strikingly decreased. Castration of Cy/+ male rats also reduced the usual increases in kidney weight by -49.7%, kidney cyst area by -34.0%, and serum urea nitrogen by -72.8%; these indices were restored to precastration levels by DHT. In Cy/+ male rats, FLT administration reduced the increase in kidney weight by -27.6% and serum urea nitrogen by -53.7% and decreased the increment in AR expression by -84.2% in comparison with untreated +/+ controls. There was no effect of FLT in female rats. Immunoblot expression of phospho-extracellular signal-regulated kinase 1/2 (P-ERK) and B-Raf, key intermediates in the mitogen-activated protein kinase pathway that are abnormally elevated in Cy/+, was unaffected by castration and/or administration of DHT or FLT. AR was not expressed in renal epithelial cell nuclei of androgen-deficient rats but was displayed in most tubule and mural cyst cell nuclei of androgen-replete rats. In androgen-deficient Cy/+, 80.6% of renal epithelial cells that had entered the cell cycle (proliferating cell nuclear antigen positive) also expressed P-ERK. In androgen-replete rats, proliferating cell nuclear antigen-positive cells co-expressed AR (12.7%), P-ERK (36.4%), and P-ERK + AR (45.0%); 5.9% were probably stimulated by other mitogenic mechanisms. It is concluded that androgens potentiate renal cell proliferation and cyst enlargement through ERK1/2-dependent and ERK1/2-independent signaling mechanisms in Han:SPRD. It is suggested that the basal rate of cell proliferation is determined by ERK1/2 signaling to a major extent and that androgens have additive effects.
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PMID:Androgen receptor pathway in rats with autosomal dominant polycystic kidney disease. 1588 69

Several options for the endocrine treatment of non-organ-confined prostate cancer are available. They include surgical or medical removal of androgenic hormones or administration of non-steroidal anti-androgens. However, tumour progression after a period of remission of the disease inevitably occurs in virtually all patients. The androgen receptor (AR) is, in various tumour models, implicated in the development of therapy resistance but molecular mechanisms that by-pass the receptor have also been described. Adaptation mechanisms relevant to tumour recurrence include up-regulation of AR mRNA and protein, overexpression of AR coactivators, increased activation of mutated receptors by steroids and anti-androgens, and ligand-independent activation. For research studies, sublines that respond to but do not depend on androgen for their proliferation were generated. Coactivators SRC-1, TIF-2, RAC3, p300, CBP, Tip60, and gelsolin are highly expressed in endocrine therapy-resistant prostate cancer. AR point mutations are increasingly detected in relapsed cancers and contribute to the failure of endocrine therapy in a subgroup of patients. Ligand-independent activation of the AR by HER-2/neu and interleukin-6 is associated with activation of the signalling pathway of mitogen-activated protein kinase. Increased activity of intracellular kinases may affect cellular events in both an AR-dependent and -independent manner. Mitogen-activated protein kinases are strongly phosphorylated in endocrine therapy-resistant prostate tumours. Similarly, activation of the AR by phosphorylated protein kinase B, Akt, has also been reported in prostate cancer. Activation of the Akt pathway contributes to increased survival of prostate tumour cells.
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PMID:Mechanisms of endocrine therapy-responsive and -unresponsive prostate tumours. 1594 99

Recent evidence indicates that testosterone is neuroprotective, however, the underlying mechanism(s) remains to be elucidated. In this study, we investigated the hypothesis that androgens induce mitogen-activated protein kinase (MAPK) signaling in neurons, which subsequently drives neuroprotection. We observed that testosterone and its non-aromatizable metabolite dihydrotestosterone (DHT) rapidly and transiently activate MAPK in cultured hippocampal neurons, as evidenced by phosphorylation of extracellular signal-regulated kinase (ERK)-1 and ERK-2. Importantly, pharmacological suppression of MAPK/ERK signaling blocked androgen-mediated neuroprotection against beta-amyloid toxicity. Androgen activation of MAPK/ERK and neuroprotection also was observed in PC12 cells stably transfected with androgen receptor (AR), but in neither wild-type nor empty vector-transfected PC12 cells. Downstream of ERK phosphorylation, we observed that DHT sequentially increases p90 kDa ribosomal S6 kinase (Rsk) phosphorylation and phosphorylation-dependent inactivation of Bcl-2-associated death protein (Bad). Prevention of androgen-induced phosphorylation of Rsk and Bad blocked androgen neuroprotection. These findings demonstrate AR-dependent androgen activation of MAPK/ERK signaling in neurons, and specifically identify a neuroprotective pathway involving downstream activation of Rsk and inactivation of Bad. Elucidation of androgen-mediated neural signaling cascades will provide important insights into the mechanisms of androgen action in brain, and may present a framework for therapeutic intervention of age-related neurodegenerative disorders.
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PMID:Androgens activate mitogen-activated protein kinase signaling: role in neuroprotection. 1601 41

The development of reproductive organ tumors such as breast and prostate cancer often depends on the action of sex hormones. Nuclear sex hormone receptors are members of the nuclear hormone receptor superfamily and act as ligand-inducible transcription factors, controlling the expression of target genes. Nuclear receptors are considered to directly and indirectly interact with a number of nuclear co-regulatory complexes involved in chromatin remodeling and histone modification. Moreover, many intracellular signalings via cell membrane receptors are shown to modulate nuclear receptor-regulated transcription. We have shown that estrogen receptors (ER) associate with a number of nuclear complexes, one of which is a spliceosome complex. We recently found that this spliceosome complex interacts with phosphorylated ER by MAP kinase, generating a novel cross-talk of estrogen and growth factor signalings. We also observed that a dioxin receptor (AhR) is capable of associating with ER, resulting in modulation of ER transactivation function. From our findings we believe that development of estrogen-dependent breast cancer may be mediated through the other signaling pathways. To address the function of the androgen receptor (AR) in androgen-dependent prostate cancer, we established a transgenic mouse line expressing a human AR mutant that is found in androgen-independent prostate cancer patients. The hAR mutant mice, generated through a Cre-loxP system, developed hyperplasia in the prostates. Hypersensitivity of AR mutants to antagonists and endogenous steroid hormones may potentiate hormone-dependency in prostate cancer development.
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PMID:Function of nuclear sex hormone receptors in gene regulation. 1627 65

Activation of signal transduction kinase cascades is known to alter androgen receptor (AR) activity, but the molecular mechanisms are still poorly defined. Here we show that stress kinase signaling regulates Ser 650 phosphorylation and AR nuclear export. In LNCaP prostate cancer cells, activation of either MAPK kinase (MKK) 4:c-Jun N-terminal kinase (JNK) or MKK6:p38 signaling pathways increased Ser 650 phosphorylation, whereas pharmacologic inhibition of JNK or p38 signaling led to a reduction of AR Ser 650 phosphorylation. Both p38alpha and JNK1 phosphorylated Ser 650 in vitro. Small interfering RNA-mediated knockdown of either MKK4 or MKK6 increased endogenous prostate-specific antigen (PSA) transcript levels, and this increase was blocked by either bicalutamide or AR small interfering RNA. Stress kinase inhibition of PSA transcription is, therefore, dependent on the AR. Similar experiments involving either activation or inhibition of MAPK/ERK kinase:ERK signaling had little effect on Ser 650 phosphorylation or PSA mRNA levels. Ser 650 is proximal to the DNA binding domain that contains a nuclear export signal. Mutation of Ser 650 to alanine reduced nuclear export of the AR, whereas mutation of Ser 650 to the phosphomimetic amino acid aspartate restored AR nuclear export. Pharmacologic inhibition of stress kinase signaling reduced wild-type AR nuclear export equivalent to the S650A mutant without affecting nuclear export of the S650D mutant. Our data suggest that stress kinase signaling and nuclear export regulate AR transcriptional activity.
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PMID:Stress kinase signaling regulates androgen receptor phosphorylation, transcription, and localization. 1628 70

Elucidation of kinase-initiated routes by which the estrogen receptors alpha and beta (ERalpha and ERbeta) control gene transcription, along with evidence of distinct biologic outcomes in response to ligands that can selectively activate nongenotropic signaling of the ERs or the androgen receptor, suggest that the ERs control a range of genes wider than that regulated by their direct association with DNA. To ascertain the extent and significance of nongenotropic ER-mediated transcription, we employed transduced HeLa cells expressing wild-type ERalpha or the ligand binding domain of ERalpha localized to the cell membrane (E-Mem), the OB-6 osteoblastic cell line, MCF-7 breast carcinoma cells and uteri from mice treated with 17beta-estradiol (E(2)), or the nongenotropic signaling activator 4-estren-3alpha,17beta-diol (estren). E(2) and estren induced ERK1/2 and Akt phosphorylation in ERalpha or E-Mem stably transfected HeLa cells; however, the phosphorylation kinetics differed between the two cell lines. In all four models, nongenotropic ER actions regulated a population of genes distinct from those regulated by genotropic ER actions. Specifically, the expression of Wnt2, Frizzled10, Egr-1, and c-Fos was strongly up-regulated in E-Mem-containing HeLa cells treated with E(2) or estren, or in ERalpha-containing HeLa cells treated with estren. Up-regulation of Frizzled10 by estren was reproduced in MCF-7 cells. Egr-1 was up-regulated by both estren and E(2); but complement 3, only by E(2) in the uteri. Estren had no effect on complement 3, cathepsin D, progesterone receptor, bcl-2, and cyclin D1 in MCF-7 cells, whereas E(2) up-regulated all these estrogen response element or activating protein-1-containing genes. These results support an extensive divergence in gene expression depending on the mode of ER activation.
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PMID:Classical genotropic versus kinase-initiated regulation of gene transcription by the estrogen receptor alpha. 1638 65

Androgens such as dihydrotestosterone (DHT) are known to exert their effects through the activation of intracellular receptors that regulate the transcription of target genes. Alternatively, nongenomic mechanisms, including the activation of such signaling pathways as the MAPK pathways, have been described. It is unclear, however, whether this latter mechanism of action is mediated by the classical androgen receptor (AR) or some alternative mechanism. In this study, using a glial cell model (C6 cells) that we found to express the AR, we identified that DHT increased the phosphorylation of both ERK and Akt, key effectors of the neuroprotection-associated MAPK and phosphoinositide 3-kinase signaling pathways, respectively, and ERK phosphorylation was blocked by the AR antagonist, flutamide. In contrast, the membrane-impermeable, BSA-conjugated androgen (DHT-BSA) caused a dose-dependent suppression of ERK and Akt phosphorylation, suggesting the existence of a novel membrane-associated AR that mediates this opposite effect on neuroprotective signaling. This is also supported by the observation of DHT-displaceable binding sites on the cell surface of live C6 cells. Collectively, these data support the existence of a novel membrane-associated AR in glial cells and argue for the existence of two, potentially competing, pathways in a given cell or tissue. This mutual antagonism was supported by the ability of DHT-BSA to attenuate DHT-induced ERK phosphorylation. Thus, depending on the predominance of one receptor mechanism over another, the outcome of androgen treatment may be very different and, as such, could help explain existing discrepancies as to whether androgens are protective or damage inducing.
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PMID:Dihydrotestosterone differentially modulates the mitogen-activated protein kinase and the phosphoinositide 3-kinase/Akt pathways through the nuclear and novel membrane androgen receptor in C6 cells. 1641 Feb 99

Both the number and the activity of osteoblasts are critical for normal bone growth and maintenance. Although a potential role for estrogen in protection of bone mass through inhibition of osteoblast apoptosis has been proposed, a function for androgen is much less clear. The aim of this study was to establish a direct role for androgen to influence osteoblast apoptosis both in vitro and in vivo. AR-MC3T3-E1 cells, with androgen receptor (AR) overexpression controlled by the type I collagen promoter, were treated with the non-aromatizable androgen 5alpha-dihydrotestosterone (DHT). Apoptosis was assessed by three different techniques including DNA fragmentation, caspase-3 activation, and changes in mitochondrial membrane potential. Transactivation of AR by DHT enhanced apoptosis while 17beta-estradiol (E(2)) treatment reduced apoptosis in both proliferating preosteoblasts and mature osteocyte-like cells. To explore mechanism, the apoptosis regulators Bcl-2 (antiapoptotic) and Bax (proapoptotic) were evaluated. Western analysis revealed that DHT decreased Bcl-2 resulting in a significantly increased Bax/Bcl-2 ratio. Regulation of Bcl-2 was post-transcriptional since bcl-2 mRNA levels were unaffected by DHT treatment. Furthermore, ubiquitination of Bcl-2 was increased and serine phosphorylation was reduced, consistent with inhibition of MAP kinase signaling by DHT. Increased Bax/Bcl-2 ratio was essential since either Bcl-2 overexpression or Bax downregulation by RNA interference (RNAi) partially abrogated or reversed DHT-enhanced osteoblastic apoptosis. In order to establish physiologic significance in vivo, AR-transgenic mice with AR overexpression in the osteoblast lineage and thus enhanced androgen sensitivity were characterized. In male AR-transgenic mice, increased osteoblast apoptosis was observed in vivo even in association with new bone formation. Thus, although estrogen can be antiapoptotic, androgen stimulates osteoblast and osteocyte apoptosis through an increased Bax/Bcl-2 ratio even in anabolic settings. These results identify a new mechanism for androgen regulation of osteoblast activity distinct from estrogen, and suggest that enhanced apoptosis can be associated with anabolic stimulation of new bone growth. Androgens thus play a distinct role in skeletal homeostasis.
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PMID:Osteoblast and osteocyte apoptosis associated with androgen action in bone: requirement of increased Bax/Bcl-2 ratio. 1641 35

Hormones acting through G protein-coupled receptors (GPCRs) can cause androgen-independent activation of androgen receptor (AR) in prostate cancer cells. Regulators of G-protein signaling (RGS) proteins, through their GTPase activating protein (GAP) activities, inhibit GPCR-mediated signaling by inactivating G proteins. Here, we identified RGS2 as a gene specifically downregulated in androgen-independent prostate cancer cells. Expression of RGS2, but not other RGS proteins, abolished androgen-independent AR activity in androgen-independent LNCaP cells and CWR22Rv1 cells. In LNCaP cells, RGS2 inhibited G(q)-coupled GPCR signaling. Expression of exogenous wild-type RGS2, but not its GAP-deficient mutant, significantly reduced AR activation by constitutively activated G(q)Q209L mutant whereas silencing endogenous RGS2 by siRNA enhanced G(q)Q209L-stimulated AR activity. RGS2 had no effect on RGS-insensitive G(q)Q209L/G188S-induced AR activation. Furthermore, extracellular signal-regulated kinase 1/2 (ERK1/2) was found to be involved in RGS2-mediated regulation of androgen-independent AR activity. In addition, RGS2 functioned as a growth suppressor for androgen-independent LNCaP cells whereas androgen-sensitive LNCaP cells with RGS2 silencing had a growth advantage under steroid-reduced conditions. Finally, RGS2 expression level was significantly decreased in human prostate tumor specimens. Taken together, our results suggest RGS2 as a novel regulator of AR signaling and its repression may be an important step during prostate tumorigenesis and progression.
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PMID:Regulator of G-protein signaling 2 (RGS2) inhibits androgen-independent activation of androgen receptor in prostate cancer cells. 1644 65

Prostate epithelial stem cells are self-renewing cells capable of differentiation into prostate epithelium, and are thought to contribute towards both benign and malignant conditions in the human prostate. We have previously demonstrated that prostate epithelial basal cells express high levels of integrin alpha2beta1 and this population can be subdivided into stem (alpha2beta1(hi) CD133+) and transient-amplifying population (TAP) cells (alpha2beta1(hi) CD133-). However, the molecular mechanism(s) controlling the commitment and regulation of these cells towards differentiated epithelium remains unclear. Here, we demonstrate that beta1 integrin function is required for the maintenance of basal prostatic epithelial cells and suppression of its function by either methylcellulose or, more specifically, beta1-blocking antibody (80 microg/ml) induces differentiation, with associated expression of the differentiation-specific markers prostate acid phosphatase (PAP) and cytokeratin 18 (CK18). Keratinocyte growth factor (KGF), a stromal-derived growth factor, has previously been implicated in prostate organogenesis using in vitro tissue recombination experiments. We show that treatment with KGF (10 ng/ml) potently induces epithelial differentiation with concomitant suppression of alpha2beta1 integrin expression as well as the induction of androgen receptor expression. Specifically, p38-MAPK appears to be involved and the presence of SB202190, a p38 inhibitor, significantly blocks KGF-induced differentiation. Furthermore, the expression of the high-affinity receptor tyrosine kinase to KGF (FGFR2) is predominantly detectable in alpha2beta1(hi) CD133- TAP cells when compared with stem cells (alpha2beta1(hi) CD133+), which would therefore be relatively unresponsive to the differentiating effect of KGF. Taken together, using a human primary culture model, we have demonstrated key roles for interactions between KGF and integrin-mediated function in the regulation of prostate epithelial differentiation.
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PMID:KGF suppresses alpha2beta1 integrin function and promotes differentiation of the transient amplifying population in human prostatic epithelium. 1655 39


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