EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Extracts of the root and trunk barks of the Chinese tree Pseudolarix kaempferi, which contain pseudolaric acids, are used in Chinese medicine for treatment of fungal infections. Pseudolaric acid B (PLAB) is the major constituent that exhibits anti-fungal activity. The nuclear peroxisome proliferator-activator receptors (PPAR) were proposed as a cellular target for the action of PLAB and its analogs. PLAB and two derivatives were tested for the activation of PPAR isoforms in two mammalian cell lines. CV-1 and H4IIEC3 cells were transfected with phorbol ester response element or PPAR response element reporter constructs, and CV-1 cells were co-transfected with the individual PPAR isoform expression plasmids. PLAB showed similar concentration-dependent effects for the activation of PPAR alpha, gamma and delta isoforms in CV-1 and H4IIEC3 cells. O-Deacetylation of PLAB (PLAC) or esterification of the free carboxy group of PLAB with beta-D-O-glucopyranoside (PLAG) markedly reduced or abolished the activation of these PPAR isoforms. In H4IIEC3 cells, PLAB increased the activation of endogenous PPARalpha and the phospholipase C signaling pathway; and stimulated peroxisomal fatty acyl-CoA oxidase activity. These effects of PLAB on the activation of endogenous PPARalpha and phospholipase C-dependent pathway were blocked by staurosporine. These results suggest that the action of PLAB on PPARalpha in H4IIEC3 cells is mediated by a protein kinase C dependent phosphorylation. Based upon these findings, the chemical class of biologically active diterpene acids related to PLAB may have promise for the treatment of metabolic and pathophysiological disorders that are regulated by these nuclear receptor isoforms.
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PMID:Pseudolaric acid analogs as a new class of peroxisome proliferator-activated receptor agonists. 1222 84

In addition to the classical activation by ligands, nuclear receptor activity is also regulated by ligand-independent signalling. Here, we unravel a novel signal transduction pathway that links the RhoA effector protein kinase C-related kinase PRK1 to the transcriptional activation of the androgen receptor (AR). Stimulation of the PRK signalling cascade results in a ligand-dependent superactivation of AR. We show that AR and PRK1 interact both in vivo and in vitro. The transactivation unit 5 (TAU-5) located in the N-terminus of AR suffices for activation by PRK1. Thus, TAU-5 defines a novel, signal-inducible transactivation domain. Furthermore, PRK1 promotes a functional complex of AR with the co-activator TIF-2. Importantly, PRK signalling also stimulates AR activity in the presence of adrenal androgens, which are still present in prostate tumour patients subjected to testicular androgen ablation therapy. Moreover, PRK1 activates AR even in the presence of the AR antagonist cyproterone acetate that is used in the clinical management of prostate cancer. Since prostate tumours strongly overexpress PRK1, our data support a model in which AR activity is controlled by PRK signalling.
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PMID:A novel inducible transactivation domain in the androgen receptor: implications for PRK in prostate cancer. 1251 33

Transcriptional repression by nuclear receptor corepressors plays a critical role in T cell development. However, the role of these corepressors in T cell activation is poorly understood. We report that T cell activation silenced transcription driven by nuclear receptors retinoic acid receptor, retinoid X receptor, and thyroid hormone receptor and induced silencing mediator of retinoic acid and thyroid hormone receptors (SMRT)-receptor interaction. Whereas the expression of a dominant active mutant of protein kinase C theta(PKC theta) induced strong SMRT-receptor interaction in the absence of T cell activation, a dominant negative mutant of PKC theta decreased the interaction. Loss of PKC theta expression by induction of "RNA interference" resulted in the attenuation of basal and activation-induced SMRT-receptor interaction. We suggest that T cell activation silences nuclear receptor-dependent transactivation in part through PKC theta-dependent enhancement of SMRT-receptor interaction.
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PMID:Protein kinase C theta modulates nuclear receptor-corepressor interaction during T cell activation. 1289 Jun 84

We used a ribozyme loss-of-function approach to demonstrate that the protein product of a cDNA encoding a multifunctional membrane-associated protein binds the seco-steroid 1,25(OH)(2)D(3) and transduces its stimulatory effects on phosphate uptake. These results are paralleled by studies in which the ability of the hormone to stimulate phosphate uptake in isolated chick intestinal epithelial cells is abolished by preincubation with Ab099 directed against the amino terminus of the protein. We now report the complete sequence of the cloned chicken cDNA for the 1,25D(3)-MARRS (membrane-associated, rapid-response steroid-binding) protein and reveal it to be identical to the multifunctional protein ERp57. Functional studies showed that active ribozyme, but not a scrambled control, decreased specific membrane-associated 1,25(OH)(2)D(3) binding, but did not affect binding to the nuclear receptor for 1,25(OH)(2)D(3). Seco-steroid-dependent stimulation of protein kinase C activity was diminished as 1,25D(3)-MARRS protein levels were reduced in the presence of the ribozyme, as judged by Western blot analyses. Phosphate uptake in isolated cells is an index of intestinal phosphate transport that occurs during growth and maturation. Whereas cells and perfused duodena robustly responded to 1,25(OH)(2)D(3) in preparations from young birds, older animals no longer responded with stimulated phosphate uptake or transport. The age-related decline was accompanied by a decrease in 1,25D(3)-MARRS mRNA that was apparent up to 1 year of age. Together, these studies functionally link phosphate transport in the chick duodenum with the 1,25D(3)-MARRS protein and point to a previously uncharacterized role for this multifunctional protein class.
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PMID:Ribozyme knockdown functionally links a 1,25(OH)2D3 membrane binding protein (1,25D3-MARRS) and phosphate uptake in intestinal cells. 1512 37

Peroxisome proliferator-activated receptor (PPAR) alpha is a nuclear receptor implicated in several physiological processes such as lipid and lipoprotein metabolism, glucose homeostasis, and the inflammatory response. PPARalpha is activated by natural fatty acids and synthetic compounds like fibrates. PPARalpha activity has been shown to be modulated by its phosphorylation status. PPARalpha is phosphorylated by kinases such as the MAPKs and cAMP-activated protein kinase A. In this report, we show that protein kinase C (PKC) inhibition impairs ligand-activated PPARalpha transcriptional activity. Furthermore, PKC inhibition decreases PPARalpha ligand-induction of its target genes including PPARalpha itself and carnitine palmitoyltransferase I. By contrast, PKC inhibition enhances PPARalpha transrepression properties as demonstrated using the fibrinogen-beta gene as model system. Finally, PKC inhibition decreases PPARalpha phosphorylation activity of hepatocyte cell extracts. In addition, PPARalpha purified protein is phosphorylated in vitro by recombinant PKCalpha and betaII. The replacement of serines 179 and 230 by alanine residues reduces the phosphorylation of the PPARalpha protein. The PPARalpha S179A-S230A protein displays an impaired ligand-induced transactivation activity and an enhanced trans-repression activity. Altogether, our data indicate that the PKC signaling pathway acts as a molecular switch dissociating the transactivation and transrepression functions of PPARalpha, which involved phosphorylation of serines 179 and 230.
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PMID:The protein kinase C signaling pathway regulates a molecular switch between transactivation and transrepression activity of the peroxisome proliferator-activated receptor alpha. 1513 Dec 57

1,25-Dihydroxyvitamin D(3) (1,25(OH)(2)D(3)) operates through pharmacologically distinct nuclear receptor-mediated and plasma membrane-initiated mechanisms. The nuclear receptor is well described, but the membrane receptor identity remains unproven. A 66 kDa protein from chick intestinal basolateral membranes was isolated previously and identified as a candidate receptor (now termed 1,25D(3)-MARRS). A chicken cDNA library was screened for clones encoding the N-terminal sequence of 1,25D(3)-MARRS. An exact match was found with an insert containing an open coding region for the full-length candidate 1,25D(3)-MARRS protein. Analysis reveals a 5' untranslated region, a precursor translation product with methionine start site, a signal peptide and a translation product of 505 amino acids prior to translation termination site. Prosite analysis predicts potential sites for phosphorylation by casein kinase II cAMP-dependent kinase, protein kinase C, and tyrosine kinase and an N-myristoylation site with high probability of occurrence. Additionally, two conserved domains capable of interacting with Rel homology domains (RHD) are present. Oligonucleotide primers sets designed to amplify unique regions of the sequence produced amplimers of the predicted size from both chicken and rat intestinal cells. Transcription-translation produced a protein that was recognized in Western blot analysis by Ab099, a polyclonal antibody recognizing the N-terminus of the 66 kDa MARRS protein.
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PMID:Identification and characterization of 1,25D3-membrane-associated rapid response, steroid (1,25D3-MARRS) binding protein. 1522 86

Our work is based on the hypothesis that steroid hormones regulate cells through traditional cytoplasmic and nuclear receptor-mediated mechanisms, as well as by rapid effects that are mediated by membrane-associated pathways. We have used the rat costochondral growth plate chondrocyte culture model to study the signaling mechanisms used by steroid hormones to elicit rapid responses and to modulate gene expression in target cells. Our studies show that the secosteroids 1,25-dihydroxyvitamin D3 [1alpha,25(OH)2D3] and 24,25-dihydroxyvitamin D3 [24R,25(OH)2D3], and the steroid hormone 17beta-estradiol, cause rapid increases in protein kinase C alpha (PKCalpha) activity, and many of the physiological responses of the cells to these regulators are PKC-dependent. Target cell specificity and the mechanisms by which PKCalpha is activated vary with each hormone. PKC activation initiates a signaling cascade that results in activation of the ERK1/2 family of mitogen activated protein kinases (MAPK), providing an alternate method for the steroids to modulate gene expression other than by traditional steroid hormone receptor-mediated pathways. In addition to their effects on growth plate chondrocytes, steroid hormones secreted by the cells also control events in the extracellular matrix through direct non-genomic regulation of matrix vesicles.
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PMID:Rapid vitamin D-dependent PKC signaling shares features with estrogen-dependent PKC signaling in cartilage and bone. 1528 75

In addition to their ligand-mediated activation, nuclear receptor activity is finely tuned by their phosphorylation status. PPARs are phosphorylated by several kinases (PKA, PKC, MAPKs, and AMPK), which affect their activity in a ligand-dependent or -independent manner according to the isoform and cellular context. Molecular consequences are multiple, including changes in ligand affinity, DNA binding, recruitment of transcriptional cofactors, proteasome degradation... Finally, the physiological relevance of PPAR phosphorylation is discussed.
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PMID:Phosphorylation of PPARs: from molecular characterization to physiological relevance. 1573 34

Endothelin-1 (ET-1) is synthesized and secreted by cardiomyocytes and induces cardiac hypertrophy. Peroxisome proliferator-activated receptor-alpha (PPAR-alpha) is a lipid-activated nuclear receptor that negatively regulates the vascular inflammatory gene response by interacting with transcription factors, such as nuclear factor-kappaB and activator protein-1 (AP-1). We reported that PPAR-alpha activator, fenofibrate (10 microM), and PPAR-alpha overexpression markedly inhibited the ET-1-induced increase in protein synthesis in cultured neonatal rat cardiomyocytes. Activation of protein kinase C and one or more of the mitogen-activated protein kinase cascades by ET-1 induces many of the features of hypertrophy. We demonstrated that PPAR-alpha activation significantly inhibits ET-1-induced cardiac hypertrophy through negative regulation of AP-1 binding activity partly secondary to inhibition of the JNK pathway. Zechner et al. demonstrated a significant role of p38 mitogen-activated protein kinase (p38) in myocardial cell hypertrophic growth and gene expression. Therefore, we investigated the effect of fenofibrate on ET-1-induced p38 activation in cardiomyocytes. The phosphorylation of p38 was transiently increased after 15 and 30 minutes of stimulation with ET-1, which was significantly inhibited by fenofibrate (10 microM). Neither application of ET-1 nor fenofibrate treatment affected the expression level of p38 in cardiomyocytes. These results suggest that the negative effect of the PPAR-alpha activator, fenofibrate, on ET-1-induced cardiac hypertrophy may be partly due to inhibition of the p38 signaling pathway.
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PMID:Activation of peroxisome proliferator-activated receptor-alpha decreases endothelin-1-induced p38 mitogen-activated protein kinase activation in cardiomyocytes. 1583 20

Extranuclear or nongenomic effects of thyroid hormones do not require interaction with the nuclear receptor, but are probably mediated by specific membrane receptors. This review will focus on the extranuclear effects of thyroid hormones on plasma membrane transport systems in non mammalian cells: chick embryo hepatocytes at two different stages of development, 14 and 19 days. At variance with mammals, the chick embryo develops in a closed compartment, beyond the influence of maternal endocrine factors. Thyroid hormones inhibit the Na+/K+-ATPase but stimulate the Na+/H+ exchanger and amino acid transport System A with different dose-responses: a bell-shaped curve in the case of the exchanger and a classic saturation curve in the case of System A. These effects are mimicked by the analog 3,5-diiodothyronine. Signal transduction is mediated by interplay among kinases, mainly protein kinase C and the MAPK pathway, initially primed by second messengers such as Ca2+, IP3, and DAG as in mammalian cells. Thyroid hormones and 3,5-diiodothyronine stimulate thymidine incorporation and DNA synthesis, associated with the increased levels and activity of cyclins and cyclin-dependent kinases involved in the G1/S transition, and also these effects have their starting point at the plasma membrane. Increasing evidence now demonstrates that thyroid hormones act as growth factors for chick embryo hepatocytes and their extranuclear effects are important for prenatal development and differentiation.
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PMID:Short-term effects of thyroid hormone in prenatal development and cell differentiation. 1586 27

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