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)

The synthesis of globin, the major protein synthesized by reticulocytes, requires the presence of heme, the prosthetic group of hemoglobin. The absence of heme leads to the activation of a nucleotide-independent protein kinase that phosphorylates the alpha subunit of the chain initiation factor eIF-2. This modification interferes with the catalytic function of eIF-2 in protein synthesis initiation. Recent progress in our understanding of the molecular mechanism of this inhibition is briefly reviewed. The same phosphorylation is catalyzed by a different enzyme (DAI) which, while constitutive in reticulocytes, is induced by interferon in other cells. This enzyme is activated by low concentrations of double-stranded RNA in conjunction with ATP. The mechanisms of activation of these enzymes are still poorly understood. HCI is believed to form an inactive complex with heme and become active when the heme is removed by hemoglobin formation. The proinhibitor form of HCI (proHCI) is unstable in vitro and, even in the presence of heme, is irreversibly inactivated by SH-binding reagents, alkaline pH, slightly elevated temperatures, or high hydrostatic pressure. In hemin-supplemented reticulocyte lysates proHCI can also be reversibly activated by oxidized glutathione (GSSG) or NADPH depletion as well as by polyunsaturated fatty acids and by Ca2+-phospholipid. The mechanism of activation of HCI by GSSG has not been clarified although it appears to involve oxidation of proHCI SH groups to disulfides. Like activation by GSSG, the activation of HCI by polyunsaturated fatty acids and by Ca2+-phospholipid also appears to be largely due to oxidation of some of the enzyme's SH groups. There thus appear to be two fully independent mechanisms of HCI activation in reticulocyte lysates, one involving heme deficiency, the other involving oxidation of proHCI SH groups. The latter, but not the former, can be prevented or reversed by NADPH generators or dithiols. ProHCI appears to be maintained in the reduced, inactive state by a system involving NADPH, thioredoxin, and thioredoxin reductase.
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PMID:Protein phosphorylation and translational control in reticulocytes: activation of the heme-controlled translational inhibitor by calcium ions and phospholipid. 409 99

One of the effects of ATP in the endoplasmic reticulum is to induce the phosphorylation of several proteins among which a 57-kDa protein (pp57) prevails in our labeling conditions. We provide evidence that pp57 is protein disulfide isomerase (PDI), an abundant ubiquitous protein of the endoplasmic reticulum involved in various important cellular functions. This phosphorylation does not result from the activity of a microsomal protein kinase but from an autophosphorylation as described for other microsomal proteins such as chaperones. Phosphoamino acid analysis and cyanogen bromide cleavage indicate that the modification site lies on a threonine residue within the central region of the protein outside the thioredoxin-like domains. For the pure PDI, only the dimer is able to phosphorylate, while some experiments suggest that within the endoplasmic reticulum the phosphorylated form of PDI is mainly mobilized in larger size oligomers. Thus a possible role for this phosphorylation may be to modulate the association of PDI with its different partners.
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PMID:A major phosphoprotein of the endoplasmic reticulum is protein disulfide isomerase. 811 77

To determine potential targets of the S locus receptor kinase (SRK) during the Brassica self-incompatibility response, a yeast two-hybrid library was screened with the SRK-910 protein kinase domain. Two thioredoxin-h-like clones, THL-1 and THL-2, were found to interact specifically with the SRK-910 protein kinase domain and not to interact with the protein kinase domains from the Arabidopsis receptor-like protein kinases (RLK) RLK4 and RLK5. The interaction between THL-1 and the SRK-910 protein kinase domain was confirmed using coimmunoprecipitation experiments with fusion proteins produced in Escherichia coli. THL-1 has thioredoxin activity based on an insulin reduction assay, and THL-1 is weakly phosphorylated by the SRK-910 protein kinase domain. THL-1 and THL-2 are both expressed in a variety of tissues but show some differences in steady state mRNA levels, with THL-2 being preferentially expressed in floral tissues. This indicates a more general biological function for these thioredoxins in addition to a potential role as effector molecules in the self-incompatibility signal cascade.
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PMID:Two members of the thioredoxin-h family interact with the kinase domain of a Brassica S locus receptor kinase. 883 14

Several proteins in the mammalian endoplasmic reticulum are substrates for protein kinases. Many unidentified phosphoproteins from this compartment are described in the literature, and this prompted us to try to identify at least the more dominant ones. When solubilized bovine and murine microsomes were phosphorylated with protein kinase CK2 and [32P]ATP and separated on SDS-PAGE, the corresponding autoradiogram showed three dominant 32P-labeled proteins. These three [32P]phosphoproteins were identified as calcium-binding proteins (CaBP) 1, 2, and 4 after purification on a MonoQ column followed by SDS-PAGE, proteolytic cleavage and subsequent amino acid sequencing of the purified 32P-labeled peptides. All three were also phosphorylated by an endogenous kinase, found by us to be of the CK2 type. This kinase phosphorylated CaBP1 N-terminally at serine 427. Of the three proteins, only CaBP4 was previously known to be a substrate of CK2. The newly identified substrates CaBP 1 and 2 are members of the thioredoxin family and have a signal tetrapeptide in the C-terminal of the protein for retention in the ER. Serines and/or threonines in the C-terminal were phosphorylated in CaBP1 when the endogenous CK2 was used as protein kinase. A protein with the same molecular mass as CaBP1 on SDS-PAGE was phosphorylated when intact hepatocytes were grown in the presence of [32P] phosphate. The in vitro phosphorylation with protein kinase CK2 can be used as a specific and sensitive method for identification of CaBP1, 2, and 4 in microsomes.
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PMID:Phosphorylation of CaBP1 and CaBP2 by protein kinase CK2. 905

Human thioredoxin is one of the oxidative stress-inducible proteins and has a protective function against oxidant-induced injury. To evaluate the possible involvement of thioredoxin in the cytoprotective function of prostaglandin E1, we analysed the effect of prostaglandin E1 on cellular injury by hydrogen peroxide and intracellular thioredoxin induction. Cellular survival of human retinal pigment epithelial cell line, established from normal retinal pigment epithelial cells, following exposure to hydrogen peroxide was markedly improved by pretreatment of 1 microm prostaglandin E1. Thioredoxin expression was augmented in a dose-dependent manner when retinal pigment epithelial cells were pretreated with 10 nm-1 microm prostaglandin E1 1 hr before the exposure to hydrogen peroxide. Intracellular cyclic AMP level was elevated by Prostaglandin E1 when the cells were simultaneously exposed to hydrogen peroxide. Forskolin, an activator of adenylate cyclase, and dibutylyl cAMP, a cyclic AMP analog, could also induce thioredoxin and extend survival of retinal pigment epithelial cells. On the other hand, thioredoxin induction and cellular protection by prostaglandin E1 was blocked by Rp diastereoisomer of cyclic adenosine 3', 5', monophosphorothioate, a competitive inhibitor of cyclic AMP dependent protein kinase. Thioredoxin induction was augmented significantly by pretreatment with prostaglandin I2, a stimulator of cyclic AMP dependent signal pathway, while treatment with prostaglandin F2alpha, a stimulator of inositol phosphate-dependent signal pathway, failed to enhance thioredoxin. These findings indicate that prostaglandin E1 has a cytoprotective activity against oxidative injury, partly through thioredoxin induction via cyclic AMP dependent pathway.
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PMID:Induction of human thioredoxin in cultured human retinal pigment epithelial cells through cyclic AMP-dependent pathway; involvement in the cytoprotective activity of prostaglandin E1. 936 44

The developing metanephric kidney is a convenient model to study molecular events associated with epithelial cell differentiation. To determine the genes involved in the defining event of this process, namely, the conversion of metanephric mesenchyme to the epithelium of the nephron, we applied differential display (DD) techniques. Explants of rat metanephric mesenchymes were induced to condense ex vivo with fibroblast growth factor 2 (FGF2) or to form tubules with FGF2 and conditioned medium (CM) from a cell line (RUB1) of ureteric bud, the renal inductive tissue. Three time points (6, 24, and 72 h) were chosen to track the dynamics of gene expression during morphogenesis. Seventy-two up- or down-regulated mRNAs were identified, including 36 novel sequences and those of cell cycle regulatory proteins (TGF-beta2, Cyclin D1, p57Kip2), transcription factors (beta-catenin, Sox11, DP1), signaling proteins (SH3-domain binding protein, G-protein-coupled receptor, Ser-Thr protein kinase), cell adhesion molecules (syndecan-4, integrin-beta1), and also gene33, H19, SM20, IGFBP5, MAMA receptor, lectin, keratin, beta-tubulin, calreticulin, GRP78, ERp72, MnSoD, thioredoxin, and others. Some have previously been associated with kidney development and serve as good controls for expected changes, while most have not been linked with kidney epithelial cell differentiation. Using thin sections of embryonic kidney and labeled antisense RNA probes, we applied RNA hybridization to confirm the results of DD and related the expression of these genes to specific cell lineages of the developing kidney. These results provide a window into the events that mediate this critical differentiation process and suggest that a limited number of interrelated events direct the epithelial conversion of metanephric mesenchyme. genesis 27:22-31, 2000. Published 2000 Wiley-Liss, Inc.
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PMID:Mesenchymal-epithelial transition in the developing metanephric kidney: gene expression study by differential display. 1086 52

Well-established mechanisms for regulation of protein activity include thiol-mediated oxidoreduction in addition to protein-protein interactions and phosphorylation. Nucleoredoxin (NRX), glutaredoxin (GRX), and thioredoxin (TRX) have been shown to act as a potent thiol reductase and reactive oxygen species regulator. They constitute a oxidoreductase superfamily and have been suggested as a candidate operating in the redox regulation of gene expression. We demonstrated here that intracellular localization of these redox molecules differ from each other and that the redox molecules differentially regulate NF-kappaB, AP-1, and CREB activation induced by TNFalpha, PMA, and forskolin and by expression of signaling intermediate kinases, NIK, MEKK, and PKA in HEK293 cells. This is a first report that describes involvement of NRX and GRX and differences from TRX in transcriptional regulation of NF-kappaB, AP-1, and CREB in living cells.
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PMID:Nucleoredoxin, glutaredoxin, and thioredoxin differentially regulate NF-kappaB, AP-1, and CREB activation in HEK293 cells. 1090 15

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

Peroxiredoxin (Prx) is an important antioxidant defense enzyme that reduces hydrogen peroxide to molecular oxygen by using reducing equivalents from thioredoxin. We report that lung Prx I messenger RNA (mRNA) is specifically upregulated by oxygen. Throughout the third trimester, mRNA for Prx I was expressed constitutively at low levels in fetal baboon lung. However, after premature birth (125 or 140 d gestation), lung Prx I mRNA increased rapidly with the onset of oxygen exposure. Premature animals (140 d) breathing 100% O(2) developed chronic lung disease within 7 to 14 d. These animals had greater lung Prx I mRNA after 1, 6, or 10 d of life than did fetal controls. In 140-d animals given lesser O(2) concentrations (as needed) that did not develop chronic lung disease, lung Prx I mRNA also was increased on Days 1 and 6, but not Day 10. In fetal distal lung explant culture, Prx I mRNA was elevated in 95% O(2), relative to 1% oxygen, and remained elevated at 24 h. Prx protein activity increased in 140-d premature baboons exposed to as-needed oxygen. By contrast, there was a decrease in Prx activity in 140-d premature baboons exposed to 100% oxygen. In the lung explants from prematures (140 d), there was no significant increase in Prx activity in response to 24 h exposure to hyperoxia, whereas exposure of explants to 48 h hyperoxia caused a nonsignificant decrease in Prx activity. Treatment of lung explants with actinomycin D inhibited Prx mRNA increases in 95% oxygen, indicating transcriptional regulation. In cellular signaling studies we demonstrated that protein kinase (PK) C activity increased when A549 cells were exposed to 95% oxygen, compared with 21% oxygen exposure. In lung explant cultures, specific PKC inhibitors calphostin C or GF109203X inhibited the increase in Prx I mRNA with 95% oxygen exposure, indicating PKC-mediated signaling. The acute increase in gene expression of Prx I in response to oxygen suggests an important role for this protein during the transition from relatively anaerobic fetal life to oxygen-breathing at birth.
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PMID:Induction of peroxiredoxin gene expression by oxygen in lungs of newborn primates. 1150 33

The activity of phosphoenolpyruvate carboxylase (PEPC, EC4.1.1.31) for the C4 photosynthesis is known to be regulated mainly in response to light/dark transitions through reversible phosphorylation by a specific protein kinase (PK). PEPC-PK with an M(r) of 30 kDa was purified about 1.4 million-fold to homogeneity from maize leaves and characterized. The purified PEPC-PK was readily inactivated under mild oxidative conditions, but the activity could be recovered by dithiothreitol (DTT). The recovery by DTT was strongly accelerated by thioredoxin (Trx) from E. coli. Trxs of plant origin such as Trx-m from spinach chloroplast and Trx-h from rice cytoplasm were also effective. These results suggest the possibility of PEPC-PK being redox-regulated via Trx in vivo.
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PMID:Thioredoxin-mediated reductive activation of a protein kinase for the regulatory phosphorylation of C4-form phosphoenolpyruvate carboxylase from maize. 1177 21

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