Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Di-n-butyl phthalate (DBP) and its active metabolite, monobutyl phthalate (MBP), display no binding affinity for the androgen receptor, yet exert antiandrogenic effects by altering steroid biosynthesis. However, the mechanisms underlying this observed effect are not known. The purpose of this study was to determine the site of MBP action on steroidogenesis in vitro using mouse Leydig tumor cells (MLTC-1). Various concentrations of MBP (0, 50, 100, 200, 400, or 800 micromol/L) were added to the medium for 24 h followed by stimulation with some compounds such as human chorionic gonadotrophin (hCG), cholera toxin (CT), cAMP analog 8-Br-cAMP, 22(R)-hydroxycholesterol (22R-HC), and pregnenolone. Data showed that MBP inhibited the increases in progesterone production induced by hCG and CT. In contrast, the levels of intracellular cAMP remained unaltered. In addition, 8-Br-cAMP-stimulated progesterone production was also suppressed by MBP. These results suggested that the site in the steroid biosynthesis pathway affected by MBP occurs downstream of PKA activation in MLTC-1 cells. Moreover, incubation with 22R-HC and pregnenolone as progesterone precursors for P-450 side-chain cleavage enzyme (P450scc) and 3beta-hydroxysteroid dehydrogenase (3betaHSD) respectively resulted in no marked change in progesterone production, indicating that MBP did not influence P450scc and 3betaHSD but did exert an effect on cholesterol transportation into mitochondria, the rate-limiting step. These results were supported by the downregulated StAR expression seen with MBP administration, as StAR is a key factor in this process. Data indicate that MBP interfered with steroid hormone production by affecting StAR expression in MLTC-1 cells.
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PMID:Monobutyl phthalate inhibits steroidogenesis by downregulating steroidogenic acute regulatory protein expression in mouse Leydig tumor cells (MLTC-1). 1747 10

Prostate cancer represents a major concern in human oncology and the phytoalexin resveratrol (RES) inhibits growth and proliferation of prostate cancer cells through the induction of apoptosis. In addition, previous data indicate that in oestrogen-responsive human breast cancer cells, RES induces apoptosis by inhibition of the phosphoinositide-3-kinase (PI3K) pathway. Here, using androgen receptor (AR)-positive LNCaP and oestrogen receptor alpha (ERalpha)-expressing PC-3 prostate tumour cells, we have analysed whether the antiproliferative activity of RES takes place by inhibition of the AR- or ERalpha-dependent PI3K pathway. Although RES treatment (up to 150 microM) decreased AR and ERalpha protein levels, it did not affect AR and ERalpha interaction with p85-PI3K. Immunoprecipitation and kinase assays showed that RES inhibited AR- and ERalpha-dependent PI3K activities in LNCaP and PC-3, respectively. Consistently, lower PI3K activities correlated with decreased phosphorylation of downstream targets protein kinase B/AKT (PKB/AKT) and glycogen synthase kinase-3 (GSK-3). GSK-3 dephosphorylation could be responsible for the decreased cyclin D1 levels observed in both cell lines. Importantly, RES markedly decreased PKB/AKT phosphorylation in primary cultures from human prostate tumours, suggesting that the mechanism proposed here could take place in vivo. Thus, RES could have antitumoral activity in androgen-sensitive and androgen-non-sensitive human prostate tumours by inhibiting survival pathways such as that mediated by PI3K.
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PMID:Non-genomic action of resveratrol on androgen and oestrogen receptors in prostate cancer: modulation of the phosphoinositide 3-kinase pathway. 1748 35

The serine-threonine kinase, Akt1/protein kinase Balpha is an important mediator of growth, survival, and metabolic signaling. Recent studies have implicated cholesterol-rich, lipid raft microdomains in survival signals mediated by Akt1. Here we address the role of lipid raft membranes as a potential site of intersection of androgenic and Akt1 signaling. A subpopulation of androgen receptor (AR) was found to localize to a lipid raft subcellular compartment in LNCaP prostate cancer cells. Endogenous AR interacted with endogenous Akt1 preferentially in lipid raft fractions and androgen substantially enhanced the interaction between the two proteins. The association of AR with Akt1 was inhibited by the anti-androgen, bicalutamide, but was not affected by inhibition of phosphoinositide 3-kinase (PI3K). Androgen promoted endogenous Akt1 activity in lipid raft fractions, in a PI3K-independent manner, within 10 min of treatment. Fusion of a lipid raft targeting sequence to AR enhanced localization of the receptor to rafts, and stimulated Akt1 activity in response to androgen, while reducing the cells' dependence on constitutive signaling through PI3K for cell survival. These findings suggest that signals channeled through AR and Akt1 intersect by a mechanism involving formation within lipid raft membranes of an androgen-responsive, extranuclear AR/Akt1 complex. Our results indicate that cholesterol-rich membrane microdomains play a role in transmitting non-genomic signals involving androgen and the Akt pathway in prostate cancer cells.
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PMID:Phosphoinositide 3-kinase-independent non-genomic signals transit from the androgen receptor to Akt1 in membrane raft microdomains. 1763 10

The androgen receptor (AR) is a critical effector of prostate cancer development and progression. The dependence of this tumor type on AR activity is exploited in treatment of disseminated prostate cancers, wherein ablation of AR function (achieved either through ligand depletion and/or the use of AR antagonists) is the first line of therapeutic intervention. These strategies are initially effective, and induce a mixed response of cell cycle arrest or apoptosis in prostate cancer cells. However, recurrent, incurable tumors ultimately arise as a result of inappropriately restored AR function. Based on these observations, it is imperative to define the mechanisms by which AR controls cancer cell proliferation. Mechanistic investigation has revealed that AR acts as a master regulator of G1-S phase progression, able to induce signals that promote G1 cyclin-dependent kinase (CDK) activity, induce phosphorylation/inactivation of the retinoblastoma tumor suppressor (RB), and thereby govern androgen-dependent proliferation. These functions appear to be independent of the recently identified TMPRSS2-ETS fusions. Once engaged, several components of the cell cycle machinery actively modulate AR activity throughout the cell cycle, thus indicating that crosstalk between the AR and cell cycle pathways likely modulate the mitogenic response to androgen. As will be discussed, discrete aberrations in this process can alter the proliferative response to androgen, and potentially subvert hormonal control of tumor progression.
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PMID:AR, the cell cycle, and prostate cancer. 1830 81

Steroid hormones have been reported to activate various signal transducers that trigger a variety of cellular responses. Among these hormones, testosterone has been identified as an antioxidant that protects against cellular damage. Therefore, using mouse embryonic stem (ES) cells as a model system, this study evaluated the effects of dihydrotestosterone (DHT), a biologically active testosterone metabolite, on H2O2-induced apoptosis. H2O2 increased the release of lactate dehydrogenase (LDH) and DNA fragmentation but reduced the cell viability in a time-dependent manner (> or =8 h). Moreover, H2O2 decreased the level of DNA synthesis and the levels of the cell cycle regulatory proteins [cyclin D1, cyclin E, cyclin-dependent kinase (CDK) 2, and CDK 4]. These effects of H2O2 were inhibited by a pretreatment with DHT. However, a treatment with flutamide (androgen receptor inhibitor, 10(-3) M) abolished the protective effects of DHT. This result was supported by the presence of the androgen receptor in mouse ES cells. The activity of the antioxidant enzyme, catalase, was increased by the DHT treatment but not by a co-treatment with DHT and flutamide. Using CM-H(2)DCFDA (DCF-DA) for the detection of intracellular H2O2, DHT decreased the intracellular H2O2 levels but flutamide blocked this effect. H2O2 also increased the level of p38 MAPK, JNK/SAPK, and NF-kappaB phosphorylation, which were inhibited by the DHT pretreatment. Catalase inhibited the effect of H2O2 on MAPKs and NF-kappaB. However, the flutamide treatment abolished the inhibitory effects of DHT on the H2O2-induced increase in the levels of p38 MAPK, JNK/SAPK, and NF-kappaB phosphorylation. DHT inhibited the H2O2-induced increase in caspase-3 expression and decreased the level of Bcl-2 and the cellular inhibitor of apoptosis protein (cIAP)-2. These effects were abolished by the flutamide treatment. In conclusion, DHT prevents the H2O2-induced apoptotic cell death of mouse ES cells through the activation of catalase and the downregulation of p38 MAPK, JNK/SAPK, and NF-kappaB via the androgen receptor.
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PMID:Effect of dihydrotestosterone on hydrogen peroxide-induced apoptosis of mouse embryonic stem cells. 1833 Aug 93

Although numerous studies have shown that both androgenic and estrogenic steroids increase rate and efficiency of muscle growth in steers, there is little consensus as to their mechanism of action. A combined estradiol 17beta (E2)/trenbolone acetate (TBA) implant causes a significant increase in muscle IGF-I mRNA and both E2 and TBA stimulate a significant increase in IGF-I mRNA level in bovine satellite cell (BSC) cultures in media containing 10% fetal bovine serum (FBS). Consequently, increased IGF-I expression may play a role in anabolic-steroid-enhanced muscle growth. However, even though treatment of cultured BSC with E2 or TBA in media containing 1% IGFBP-3-free swine serum (SS) results in increased proliferation there is no effect on IGF-I mRNA expression, suggesting that increased IGF-I expression may not be responsible for anabolic-steroid-enhanced BSC proliferation. To further examine the role of estrogen, androgen and IGF-I receptors and their respective ligands in E2- and TBA-stimulated BSC proliferation, we assessed the effects of specific inhibitors on E2- or TBA-stimulated proliferation of BSC. Both ICI 182 780 (an estrogen receptor blocker) and flutamide (an inhibitor of androgen receptor) suppressed (p<0.05) E2- and TBA-stimulated BSC proliferation, respectively. JB1 (a competitive inhibitor of IGF-I binding to type I IGF receptor) reduced (p<0.05) both E2- and TBA-stimulated proliferation in BSC cultures. Both the Raf-1/MAPK kinase (MEK)1/2/ERK1/2, and the phosphatidylinositol 3-kinase (PI3K)/Akt pathways play significant roles in the actions of IGF-I on proliferation and differentiation of myogenic cells. PD98059, an inhibitor of the MAPK pathway, and wortmannin, an inhibitor of the PI3K pathway, both suppressed (p<0.05) E2- and TBA-stimulated proliferation of cultured BSC. Our data suggest that IGF-I plays a role in E2- and TBA-stimulated proliferation of cultured BSC even in the absence of increased IGF-I expression.
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PMID:Roles of IGF-I and the estrogen, androgen and IGF-I receptors in estradiol-17beta- and trenbolone acetate-stimulated proliferation of cultured bovine satellite cells. 1840 76

Genistein, the predominant isoflavone in soy, may be chemopreventive in prostate cancer (CaP). It down-regulates the prostate-specific antigen (PSA) and androgen receptor (AR) in androgen responsive cells. However, the extent of the down-regulation and whether genistein has a general effect on all androgen responsive genes (ARGs) are unclear. We investigated the ability of genistein to modulate ARG expression by the synthetic androgen R1881 in LNCaP cells. Given that there is important crosstalk between AR and mitogen activated protein kinase (MAPK) signaling, we also investigated whether genistein activates the MAPK end targets c-Jun N-terminal kinase (JNK) and c-Jun. Changes in ARG expression were determined by Western analysis and semi-quantitative RT-PCR. The activation of JNK and c-Jun was investigated by Western analysis and a solid phase kinase assay. The PSA protein and mRNA expression were both down-regulated by genistein. In contrast, KLK4 was up-regulated at the mRNA, but down-regulated at the protein level. NKX3.1 mRNA levels did not change significantly, but protein levels were significantly down-regulated. STAMP2 mRNA levels slightly increased whereas the protein expression was down-regulated. The AR mRNA expression changed significantly only at high concentrations of genistein when it was down-regulated, whereas AR protein levels were decreased at low concentrations of genistein. The solid phase kinase assay indicated a transient activation of JNK by genistein, which was supported by Western analysis. Thus genistein differentially modulates ARG mRNA expression, but has an inhibitory role on the ARG protein levels. The activation of the JNK pathway which inhibits AR signaling may provide a mechanism for the overall inhibition of protein levels.
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PMID:Genistein differentially modulates androgen-responsive gene expression and activates JNK in LNCaP cells. 1842 81

Androgens regulate the development and function of male reproductive organs and play a crucial role in the onset and progression of prostate cancer. Androgen action is primarily mediated through the nuclear androgen receptor (AR) which acts as a ligand-dependent transcription factor. This mode of androgen action takes hours to manifest and is called the genomic pathway. The androgen-mediated genomic responses require activity of cyclic AMP (cAMP)-dependent protein kinase (PKA). Androgens also act through nongenomic pathways in certain cell types to evoke rapid responses (manifested in minutes) that are mediated through changes in ion currents and second messengers. Here, we show that androgen causes the rapid and cAMP-dependent activation of PKA in prostate cells. The androgen-induced PKA activation is not inhibited by nuclear AR antagonist bicalutamide and can be observed in cells that do not express nuclear AR gene. Reduction of G alphas expression with siRNA attenuates the androgen-mediated activation of PKA, which is required for the androgen-induced prostate cell proliferation. We conclude that androgen actively evokes a nongenomic signaling pathway to activate PKA that is needed for the genomic functioning of nuclear AR. The inhibition of PKA activation, together with standard AR-targeted therapies, may be more efficacious for treatment of patients with prostate cancer.
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PMID:Androgens transduce the G alphas-mediated activation of protein kinase A in prostate cells. 1845 Nov 48

The androgen receptor (AR) is the most widely expressed steroid hormone receptor in human breast cancers and androgens including 5alpha-dihydrotestosterone are potent inhibitors of breast cancer cell proliferation. The extracellular signal-regulated mitogen activated protein kinase (ERK/MAPK) pathway is hyperactivated in a proportion of breast tumors and can interact with steroid hormone receptor signaling by altering receptor phosphorylation, turnover, ligand, and cofactor interactions. To examine the effects of ERK/ MAPK hyperactivity on AR levels, MCF-7 cells were stably transfected with a plasmid encoding a constitutively active MEK1 protein to create MCF-7-DeltaMEK1 cells. Treatment of MCF-7-DeltaMEK1 with androgens caused a transient increase in AR protein levels, similar to that observed in untransfected MCF-7 cells treated with androgens. Androgens also inhibited the proliferation of MCF-7-DeltaMEK1 cells by 50-60% following 8 days of treatment in association with increased accumulation of cells in the G1 phase of the cell cycle. These results indicate that although ERK/MAPK hyperactivation in breast cancer cells is associated with reduced estrogen receptor (ERalpha) levels and antiestrogen resistance, AR levels are maintained and breast cancer cells remain susceptible to the growth inhibitory effects of androgens.
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PMID:ERK/MAPK regulation of the androgen responsiveness of breast cancer cells. 1849 66

Modulation of hippocampal synaptic plasticity by androgen has been attracting much attention. Thorns of thorny excrescences of CA3 hippocampal neurons are post-synaptic regions whose presynaptic partners are mossy fiber terminals. Here we demonstrated rapid effects of dihydrotestosterone (DHT) and testosterone (T) on the density of thorns, by imaging Lucifer Yellow-injected neurons in adult male rat hippocampal slices. The application of 10nM DHT or T induced rapid increase in the density of thorns within 2h. The androgen-mediated increase was suppressed by blocking several kinases, such as Erk MAPK, p38 MAPK, PKC, and CaMKII. On the other hand, PKA, PI3K were not involved in the signaling of thorn-genesis. The increase in the thorn density by androgen was also blocked by the inhibitor of classical androgen receptor. Almost no difference was observed between DHT and T in the effect on the thorn density. We observed that the androgen-induced thorn-genesis is opposite to estrogen-induced thorn-degeneration.
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PMID:Androgen rapidly increases dendritic thorns of CA3 neurons in male rat hippocampus. 1925 89


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