EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two key steroidogenic mitochondrial cytochromes P-450 (cholesterol side-chain cleavage (scc) and 11 beta-hydroxylation (11 beta)) were purified from bovine adrenal cortex and examined as potential phosphorylatable substrates using purified cAMP-dependent protein kinase subunit (C) and A type (CKA) and G type (CKG) cAMP-independent casein kinases. Of the two cytochromes P-450, only P-450 11 beta was able to incorporate phosphate from ATP in the presence of C (Km = 7.5 microM), whereas CKA and CKG were ineffective. Phosphorylation of P-450 11 beta (maximum incorporation of 1 mole of 32P per mole of cytochrome, only on serine residues) did not modify the enzymatic activity of an 11 beta-hydroxylation system reconstituted in vitro from purified components, when adrenodoxin was in excess in the reaction. However, kinetic studies showed that P-450 11 beta phosphorylation strikingly increases the P-450 11 beta-adrenodoxin affinity in a phosphorylation-dependent manner. This would result in a net increase in 11 beta-hydroxylase activity under in vivo conditions where adrenodoxin availability is limited. Possible significance of these observations in the regulation of differentiated adrenocortical functions remains to be further examined.
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PMID:Phosphorylation of purified mitochondrial cytochromes P-450 (cholesterol desmolase and 11 beta-hydroxylase) from bovine adrenal cortex. 628 91

We have studied two proteins potentially involved in the regulation of the 25-OH-D-1-hydroxylase, which is located in the renal mitochondria and which is responsible for the production of the steroid hormone 1,25(OH)2D3. The endogenous inhibitor of cyclic AMP-dependent protein kinase, PKI, is down regulated by 1,25(OH)2D3. Having cloned and sequenced PKI cDNA, we studied its message levels and found them to be regulated by 1,25(OH)2D3 tissue specifically in the kidney and in kidney cell culture. In other experiments we over expressed the ferredoxin component of the 1-hydroxylase and found it to be physically and chemically indistinguishable from those of classic steroidogenic tissues. The mRNA encoding the ferredoxin component is up-regulated by chronic vitamin D deficiency, which at the same time leads to sustained elevation in 1-hydroxylase activity; no short term effect of 1,25(OH)2D3 on ferredoxin mRNA in kidney cell culture could be demonstrated. Finally, there was an association between decreased phosphorylation of ferredoxin and decreased 1-hydroxylase activity brought about by treatment of cultured kidney cells with TPA. Control of the renal signaling events involved in the production of 1,25(OH)2D3 remains a fruitful area of investigation in the field of the metabolism and actions of vitamin D and its metabolites.
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PMID:Regulation of the ferredoxin component of renal hydroxylases at transcriptional and postranslational levels and of the protein inhibitor of cyclic AMP-dependent kinase. 762 15

The conversion of cholesterol to pregnenolone, the rate-limiting step in steroid hormone synthesis, occurs on mitochondrial cytochrome P450scc, which catalyzes this reaction by receiving electrons from NADPH via a flavoprotein [adrenodoxin reductase (AdRed)] and an iron sulfur protein [adrenodoxin (Adx)]. The behavior of the genes and mRNAs encoding these proteins has been studied in several systems, but little is known about the behavior of the human proteins. Using cloned cDNAs for human P450scc and AdRed, we constructed bacterial expression vectors to make milligram quantities of the corresponding proteins. These, plus purified human Adx similarly prepared by Dr. L. Vickery, were injected into rabbits to raise antiserum to each of the proteins. Each antiserum was highly specific and did not cross-react with other mitochondrial proteins detectable by Western blotting. Human JEG-3 choriocarcinoma cells and mouse Y-1 adrenocortical carcinoma cells were then incubated for 0-24 h with 1 mM 8-bromo-cAMP (8Br-cAMP) or 30 nM phorbol 12-myristate 13-acetate (PMA; phorbol ester) plus 1 microM A23187 (calcium ionophore) to activate the protein kinase-A and -C pathways, respectively. In JEG-3 cells, 8Br-cAMP increased and PMA/A23187 slightly decreased the abundance of P450scc and Adx, but neither treatment had a detectable effect on AdRed. The production of pregnenolone by these cells increased 3-fold in response to 8Br-cAMP and fell to one third in response to PMA/A23187. In Y-1 cells, 8Br-cAMP increased the abundance of all three proteins, while PMA/A23187 decreased the abundance of P450scc and Adx. The production of pregnenolone by these cells increased 9-fold in response to 8Br-cAMP and was unaffected by TPA/A23187. These studies show that the three proteins of the cholesterol side-chain cleavage system behave in response to 8Br-cAMP and PMA/A23187 as predicted from the study of their genes and mRNAs, indicating that the chronic regulation of steroidogenesis in these cell systems is regulated principally at the level of mRNA abundance.
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PMID:Regulation of proteins in the cholesterol side-chain cleavage system in JEG-3 and Y-1 cells. 842 75

A protein kinase was located in the cytosol of pea mesophyll cells. The protein kinase phosphorylates, in an ATP-dependent manner, chloroplast-destined precursor proteins but not precursor proteins, which are located to plant mitochondria or plant peroxisomes. The phosphorylation occurs on either serine or threonine residues, depending on the precursor protein used. We demonstrate the specific phosphorylation of the precursor forms of the chloroplast stroma proteins ferredoxin (preFd), small subunit of ribulose-bisphosphate-carboxylase (preSSU), the thylakoid localized light-harvesting chlorophyll a/b-binding protein (preLHCP), and the thylakoid lumen-localized proteins of the oxygen-evolving complex of 23 kDa (preOE23) and 33 kDa (preOE33). In the case of thylakoid lumen proteins which possess bipartite transit sequences, the phosphorylation occurs within the stroma-targeting domain. By using single amino acid substitution within the presequences of preSSU, preOE23, and preOE33, we were able to tentatively identify a consensus motif for the precursor protein protein kinase. This motif is (P/G)X(n)(R/K)X(n)(S/T)X(n) (S*/T*), were n = 0-3 amino acids spacer and S*/T* represents the phosphate acceptor. The precursor protein protein kinase is present only in plant extracts, e.g. wheat germ and pea, but not in a reticulocyte lysate. Protein import experiments into chloroplasts revealed that phosphorylated preSSU binds to the organelles, but dephosphorylation seems required to complete the translocation process and to obtain complete import. These results suggest that a precursor protein protein phosphatase is involved in chloroplast import and represents a so far unidentified component of the import machinery. In contrast to sucrose synthase, a cytosolic marker protein, the precursor protein protein kinase seems to adhere partially to the chloroplast surface. A phosphorylation-dephosphorylation cycle of chloroplast-destined precursor proteins might represent one step, which could lead to a specific sorting and productive translocation in plant cells.
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PMID:Phosphorylation of the transit sequence of chloroplast precursor proteins. 862 59

Sex steroids, both androgens and oestrogens, are made from dehydroepiandrosterone (DHEA). The biosynthesis of DHEA from cholesterol entails four steps. First, cholesterol enters the mitochondria with the assistance of a recently described factor called the steroidogenic acute regulatory protein (StAR). Mutations in the StAR gene cause congenital lipoid adrenal hyperplasia. Next, cholesterol is converted to pregnenolone by the cholesterol side chain cleavage enzyme, P450scc. Mutations in the gene for P450scc and for its electron transfer partners, ferredoxin reductase and ferredoxin, have not been described and are probably incompatible with term gestation. Third, pregnenolone undergoes 17 alpha-hydroxylation by microsomal P450c17. Finally, 17-OH pregnenolone is converted to DHEA by the 17,20 lyase activity of P450c17. Isolated 17,20 lyase deficiency is rare, but the identification of its genetic basis and the study of P450c17 enzymology have recently clarified the mechanisms by which DHEA synthesis may be regulated in adrenarche, and have suggested that the lesion underlying polycystic ovary syndrome might involve a serine kinase.
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PMID:Early steps in androgen biosynthesis: from cholesterol to DHEA. 989 62

Before the structure of cAMP-dependent protein kinase had been solved, sequence alignments had already suggested that several highly conserved peptide motifs described as kinase subdomains I through XI might play some functional role in catalysis. Crystal structures of several members of the protein kinase superfamily have suggested that the nearly invariant aspartate residue within subdomain IX contributes to the conformational stability of the catalytic loop by forming hydrogen bonds with backbone amides within subdomain VI. However, substitution of this aspartate with alanine or threonine in some protein kinases have indicated that these interactions are not essential for activity. In contrast, we show here that conversion of this aspartate to arginine abolished the catalytic activity of the Fer protein-tyrosine kinase when expressed either in mammalian cells or in bacteria. Structural modeling predicted that the catalytic loop of the FerD743R mutant was disrupted by van der Waal's repulsion between the side chains of the substituted arginine residue in subdomain IX and histidine-683 in subdomain VI. The FerD743R mutant model predicted a shift in the peptide backbone of the catalytic loop, and an outward rotation of histidine-683 and arginine-684 side chains. However, the position and orientation of the presumptive catalytic base, aspartate-685, was not substantially changed. The proposed model explains how substitutions of some, but not all residues could be tolerated at this nearly invariant aspartate in kinase subdomain IX.
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PMID:Mutation of a highly conserved aspartate residue in subdomain IX abolishes Fer protein-tyrosine kinase activity. 1019 87

We characterized a regulatory element located in the -76 to -62 region of the human ferredoxin gene. This region bound to Sp1-like proteins with low affinity, as shown using electrophoretic mobility shift, competition, antibody binding, and Southwestern experiments. The similarity of the regulatory element to Sp1 extends beyond its DNA-binding domain, as cloned Sp1 functioned equally well when fused to a peptide that bound to an irrelevant site. The function of these Sp1-binding sites is mediated through the cAMP-dependent protein kinase (PKA) signaling pathway, because reporter genes downstream of the Sp1-binding sites were not activated in a PKA-deficient cell line. Transfection of the catalytic subunit of PKA restored activated transcription. Similar Sp1-binding sites identified in the CYP11A1 and CYP21 genes also controlled cAMP-dependent transcription of the reporter gene. Our finding of the function of Sp1-like proteins in steroidogenic gene transcription adds one more role Sp1 plays in controlling physiological events.
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PMID:Sp1-like proteins function in the transcription of human ferredoxin genes. 1075 89

Light induces phosphorylation of photosystem II (PSII) proteins in chloroplasts by activating the protein kinase(s) via reduction of plastoquinone and the cytochrome b(6)f complex. The recent finding of high-light-induced inactivation of the phosphorylation of chlorophyll a/b-binding proteins (LHCII) of the PSII antenna in floated leaf discs, but not in vitro, disclosed a second regulatory mechanism for LHCII phosphorylation. Here we show that this regulation of LHCII phosphorylation is likely to be mediated by the chloroplast ferredoxin-thioredoxin system. We present a cooperative model for the function of the two regulation mechanisms that determine the phosphorylation level of the LHCII proteins in vivo, based on the following results: (i) Chloroplast thioredoxins f and m efficiently inhibit LHCII phosphorylation. (ii) A disulfide bond in the LHCII kinase, rather than in its substrate, may be a target component regulated by thioredoxin. (iii) The target disulfide bond in inactive LHCII kinase from dark-adapted leaves is exposed and easily reduced by external thiol mediators, whereas in the activated LHCII kinase the regulatory disulfide bond is hidden. This finding suggests that the activation of the kinase induces a conformational change in the enzyme. The active state of LHCII kinase prevails in chloroplasts under low-light conditions, inducing maximal phosphorylation of LHCII proteins in vivo. (iv) Upon high-light illumination of leaves, the target disulfide bond becomes exposed and thus is made available for reduction by thioredoxin, resulting in a stable inactivation of LHCII kinase.
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PMID:Cooperative regulation of light-harvesting complex II phosphorylation via the plastoquinol and ferredoxin-thioredoxin system in chloroplasts. 1100 28

Steroid hormone biosynthesis in the adrenal cortex is controlled by the peptide hormone adrenocorticotropin (ACTH), which acts to increase intracellular cAMP and results in the activation of cAMP-dependent protein kinase A (PKA) and subsequent increase in steroidogenic gene transcription. Protein phosphorylation by PKA activates transcription of genes encoding steroidogenic enzymes; however the precise proteins which are phosphorylated remain to be determined. We have recently shown that phosphoprotein phosphatase (PP) activity is essential for cAMP-dependent transcription of the human CYP17 (hCYP17) gene in H295R adrenocortical cells. The aim of our current studies was to determine if inhibition of PP activity attenuates cAMP-dependent mRNA expression of other steroidogenic genes in H295R cells. Using various inhibitors of serine/threonine and tyrosine PPs, we examined the role of phosphatase activity on cAMP-dependent transcription of steroidogenic genes in the adrenal cortex. CYP11A, CYP11B1/2, CYP21, and adrenodoxin also require PP activity for cAMP-stimulated gene expression. Inhibition of both serine/threonine and tyrosine PP activities suppresses the cAMP-dependent mRNA expression of several steroidogenic genes, suggesting that a dual-specificity PP is essential for conveying ACTH/cAMP-stimulated transcription. We propose that PKA phosphorylates and activates a dual-specificity phosphatase, which mediates steroidogenic gene transcription in response to ACTH/cAMP.
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PMID:cAMP-dependent transcription of steroidogenic genes in the human adrenal cortex requires a dual-specificity phosphatase in addition to protein kinase A. 1220 Feb 37

Steroid hormone biosynthesis in the adrenal cortex and gonads involves the coordinated transcription of the genes encoding the steroid hydroxylases, 3beta-hydroxysteroid dehydrogenase (3betaHSD), the steroidogenic acute regulatory protein (StAR), and adrenodoxin (Adx). Transcriptional regulation of steroidogenic genes is multifactorial, entailing developmental, tissue-specific, constitutive, and cAMP-dependent mechanisms. Optimal steroidogenic capacity is achieved by the actions of ACTH which exerts transcriptional pressure on all steroidogenic genes. The actions of ACTH in the adrenal cortex have been studied in great detail and is mediated by cAMP and protein kinase A (PKA) via two temporally distinct pathways. The acute response leads to mobilization of cholesterol, the initial substrate for all steroidogenic pathways, from cellular stores to the inner mitochondrial membrane where cholesterol sidechain cleavage cytochrome P450 (P45011A1) resides. The slower, chronic response of ACTH in the adrenal cortex directs transcription of the genes encoding the steroidogenic enzymes. Although steroidogenic gene transcription in response to ACTH is cAMP-dependent, the consensus cAMP response pathway (CRE/CREB) is not involved. Instead, each steroidogenic gene utilizes unique cAMP-responsive sequences (CRS) found in the promoters of each gene, which bind a diverse array of transcription factors. Moreover, once specific transcription factors are bound to the promoters of the steroidogenic genes, increased gene expression requires posttranslational modification (phosphorylation/dephosphorylation) of the transcription factors and binding of coactivator proteins. This review provides a general view (with emphasis on the human) of the important factors involved in regulating steroidogenic gene expression and ultimately steroid hormone biosynthesis.
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PMID:ACTH modulation of transcription factors responsible for steroid hydroxylase gene expression in the adrenal cortex. 1276 45

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