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

The enzyme thyroid peroxidase (TPO) plays a central role in thyroid hormone synthesis and is the target for the autoimmune attack in lymphocytic thyroiditis. We have examined the activation of the TPO gene in cultured human thyrocytes using slot-blot hybridization with a synthetic 40 mer oligonucleotide probe derived from the nucleotide sequence of the human TPO gene. The oligonucleotide probe was shown by Northern blotting to hybridize specifically to an approximately 3 kb RNA species from thyroid tissue of patients with Graves' disease, but not to RNA preparations from human or bovine retinal tissue, providing compelling evidence for the specificity of the probe for TPO mRNA. Addition of TSH (10 mU/ml) to primary thyroid cultures for 4 h led to increased TPO mRNA levels which were maximal after 48 h and significantly higher than basal even after 7 days of co-culture. Activation of TPO mRNA by TSH showed dose dependency over a wide range (0.01-100 mU/ml), with a maximal effect at 10 mU TSH/ml in cells cultured for a period of 72 h. Comparison of TPO mRNA levels with the accumulation of thyroglobulin mRNA levels following stimulation by TSH indicated that the induction of the gene encoding thyroglobulin precedes transcription of the TPO gene. The adenylate cyclase activator forskolin (1-100 microM) mimicked TSH in increasing TPO mRNA levels whilst, in contrast, the phorbol ester 12-O-tetradecanoyl phorbol 13-acetate (TPA; 0.01-1 microM) led to levels of TPO mRNA that were lower than basal. Thus TSH induces a specific dose-dependent activation of TPO mRNA which is mimicked by agents which increase cyclic AMP. In contrast, TPA-induced activation of protein kinase C inhibits this response.
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PMID:Activation of the thyroid peroxidase gene in human thyroid cells: effect of thyrotrophin, forskolin and phorbol ester. 274 42

Interferon-gamma (IFN gamma) is believed to play a role in the pathogenesis of autoimmune thyroid disease, as it is known to exert diverse effects on thyroid metabolism. These include induction of human leukocyte antigen class II expression, inhibition of gene expression of thyroglobulin and thyroid peroxidase, as well as inhibition of cellular proliferation. However, the mechanism of action of IFN gamma in thyrocytes has not been clearly defined. We studied the action of IFN gamma on the production of inositol phosphates and intracellular Ca2+ mobilization in primary cultures of human thyrocytes using the fluorescent Ca2+ indicator fura-2. IFN gamma increased the production of inositol mono-, bis-, and trisphosphates and caused a dose-dependent increase in intracellular Ca2+ ([Ca2+]i) at 37 C. Preincubation with 12-O-tetradecanoylphorbol-13-acetate, which activates protein kinase C, resulted in the abolition of the IFN gamma response, suggesting that protein kinase C was involved in a negative feedback loop resulting in inhibition of IFN gamma-induced [Ca2+]i rise. Prior release of intracellularly stored Ca2+ with thapsigargin, the microsomal Ca2+ pump inhibitor, also abolished the response of IFN gamma. Mobilization of [Ca2+]i resulted in Ca2+ entry across the plasma membrane, which could be blocked by La3+, the inorganic Ca2+ antagonist. The tyrosine protein kinase inhibitor, genistein, inhibited the production of inositol phosphates and the elevation of [Ca2+]i induced by IFN gamma, but had no effect on ATP, suggesting that tyrosine protein kinase is involved in the signaling transduction of IFN gamma. We conclude that the mobilization of intracellular Ca2+ and the production of inositol phosphates are two important signaling events for the action of IFN gamma in human thyrocytes.
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PMID:Interferon-gamma increases intracellular calcium and inositol phosphates in primary human thyroid cell culture. 758 38

The mechanism for hormonal regulation of rat thyroperoxidase (rTPO) gene transcription in rat FRTL-5 thyroid cells has been investigated. Transient transfection experiments demonstrate that the minimal rTPO promoter that confers thyroid-specific expression also confers responsiveness to TSH and insulin. TSH induces a 7-fold increase in promoter activity, and the induction is detected almost immediately after the addition of the hormone. Insulin also stimulates TPO promoter activity, but the effect of this hormone is weaker and slower than that of TSH. The effect of TSH in increasing TPO promoter activity is mimicked by the cAMP agonist forskolin. The calcium-protein kinase C pathway is also involved in the regulation of the rTPO promoter activity, since a calcium ionophore (A23187) and phorbol esters [12-O-tetradecanoyl-phorbol-13-acetate (TPA)] inhibit it quickly. These data indicate that the region of the rTPO promoter used here contains the DNA signals necessary for its hormonal regulation. Protein-DNA binding studies show that the thyroid-specific nuclear protein TTF-2, which binds to the rTPO promoter, is induced by TSH and forskolin, and this effect is clearly observable as early as 5 h post induction. Moreover, the DNA binding activity of TTF-2 is inhibited by both A23187 and TPA. Heterologous promoter constructs containing four, eight, or 12 tandem repeats of an oligonucleotide that includes the TTF-2 binding site increase their activity in response to TSH, forskolin, and insulin, while the the presence of A23187 or TPA inhibits their activity. These data indicate that the TTF-2 protein plays an important role in the hormonal control of thyroid-specific transcription.
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PMID:Identification of a cis-regulatory element and a thyroid-specific nuclear factor mediating the hormonal regulation of rat thyroid peroxidase promoter activity. 826 61

Thrombopoietin (TPO, c-Mpl ligand) is considered to play an important role in the regulation of megakaryocytopoiesis and platelet production by activating the cytokine receptor c-Mpl. We have examined the binding of 125I-TPO to the human megakaryocytic cell line, CMK, and to primary human megakaryocytes. Scatchard analysis of TPO binding to its cognate receptor in megakaryocytic cells suggested the existence of a single class of c-Mpl receptors. CMK cells exhibited 1223 receptors per cell with a dissociation constant (Kd) of Kd = 223 pM, whereas primary human megakaryocytes exhibited 12140 receptors per cell and a dissociation constant of Kd = 749 pM. The pretreatment of CMK cells and primary bone marrow megakaryocytes with TPO resulted in a decreased binding of TPO to the c-Mpl receptors. This down-regulation was observed within 3 h and was not inhibited by cycloheximide. Phorbol ester, an activator of protein kinase C, also inhibited TPO binding to the c-Mpl receptors by reducing the number of these receptors. The pretreatment of CMK cells with IL-3, IL-6 and DMSO, all of which induced the differentiation of CMK cells, did not affect the binding of TPO to the c-Mpl receptors. These results suggest an additional mechanism, where protein kinase C may help to regulate the binding of TPO to these cells.
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PMID:Binding and regulation of thrombopoietin to human megakaryocytes. 953 37

Thrombin induced a shape change of UT-7/TPO, a thrombopoietin-dependent human megakaryocytic cell line. Expression of myosin light chain (MLC) kinase was negligible in UT-7/TPO cells, while Rho-kinase and protein kinase C (PKC) were detected. Thrombin stimulated both monophosphorylation at Ser19 and diphosphorylation at Thr18 and Ser19 of 20 kDa MLC, as well as phosphorylation of myosin-binding subunit (MBS) and PKC-potentiated inhibitory phosphoprotein of myosin phosphatase (CPI). The Rho-kinase inhibitor Y-27632 [(+)-(R)-trans-(1-aminoethyl)-N-(4-phynidyl) cyclohexane-carboxamide dihydrochloride, monohydrade] strongly inhibited thrombin-induced shape change, MBS phosphorylation, and mono- and diphosphorylation of MLC. The PKC inhibitor GF109203X (2-[1-(3-dimethylaminopropyl)-1H-indol-3-yl]-3-(1H-indol-3-yl)-maleimide) partially inhibited thrombin-induced shape change and MLC diphosphorylation even at the concentration that completely inhibited thrombin-induced CPI phosphorylation. In shape-changed UT-7/TPO cells induced by thrombin, phosphorylated MBS and CPI were colocalized with diphosphorylated MLC at pseudopods, whereas monophosphorylated MLC was mainly located in the cortical region. The accumulation of diphosphorylated MLC was blocked by preincubation with either Y-27632 or GF109203X. These results suggest that Rho-kinase is responsible for the induction of MLC phosphorylation in thrombin-induced shape change of UT-7/TPO cells and that myosin phosphatase inactivation through Rho-kinase-MBS and PKC-CPI pathways could be necessary for enhancement of MLC diphosphorylation which promote the pseudopod formation.
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PMID:Inhibition by Rho-kinase and protein kinase C of myosin phosphatase is involved in thrombin-induced shape change of megakaryocytic leukemia cell line UT-7/TPO. 1556 63

Wnt binding to cell surface receptors can activate a 'canonical' pathway that increases cellular beta-catenin or a 'noncanonical' Ca(++) pathway which can increase protein kinase C (PKC) activity. Although components of both Wnt/beta-catenin-signaling pathways exist in thyrocytes, their biological role is largely unknown. In evaluating the biological role of Wnt signaling in differentiated FRTL-5 thyroid cells, we showed that TSH increased canonical Wnt-1 but, surprisingly, decreased the active form of beta-catenin. Transient overexpression of Wnt-1 or beta-catenin in FRTL-5 cells increased active beta-catenin (ABC), decreased thyroperoxidase (TPO) mRNA, and suppressed TPO-promoter activity. The target of beta-catenin suppressive action was a consensus T cell factor/lymphoid enhancing factor (TCF/LEF)-binding site 5'-A/T A/T CAAAG-3', -137 to -129 bp on the rat TPO promoter. beta-Catenin overexpression significantly increased complex formation between beta-catenin/TCF-1 and an oligonucleotide containing the TCF/LEF sequence, suggesting that the beta-catenin/TCF-1 complex acts as a transcriptional repressor of the TPO gene. Stable over-expression of Wnt-1 in FRTL-5 cells significantly increased the growth rate without increasing beta-catenin levels. Increased growth was blunted by a PKC inhibitor, staurosporin. Wnt-1 overexpression increased serine phosphorylation, without affecting tyrosine phosphorylation, of signal transducers and activators of transcription 3 (STAT3) protein. In addition, these final results suggest that TSH-induced increase in Wnt-1 levels in thyrocytes contributes to enhanced cellular growth via a PKC pathway that increases STAT3 serine phosphorylation and activation, whereas TSH-induced decrease in activation of beta-catenin simultaneously relieves transcriptional suppression of TPO. We hypothesize that Wnt signaling contributes to the ability of TSH to simultaneously increase cell growth and functional, thyroid-specific, gene expression.
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PMID:Overexpression of Wnt-1 in thyrocytes enhances cellular growth but suppresses transcription of the thyroperoxidase gene via different signaling mechanisms. 1740 Aug 7

Protein kinase C (PKC)-mediated intracellular signaling participates in several key steps of hematopoietic cell differentiation. The epsilon isoform of PKC has been associated with erythroid differentiation as well as with the early phases of megakaryocytic (MK) lineage commitment. Here, we worked on the hypothesis that PKCepsilon expression levels might be modulated during MK differentiation, with a specific role in the early as well as in the late phases of thrombopoiesis. We demonstrate that--at variance with the erythroid lineage development--PKCepsilon is completely downmodulated in TPO-induced CD34 cells from day 6 onward. The forced expression of PKCepsilon in the late phases of MK differentiation delays the phenotypic differentiation of progenitors likely via Bcl-xL upregulation. Moreover, tumor necrosis factor-related apoptosis-inducing ligand (TRAIL), known as a negative regulator of early erythroid expansion, is not apoptogenic for thrombopoietin-induced CD34 cells, but rather accelerates their maturation. However, PKCepsilon levels negatively interfere also with the effects of TRAIL in MK differentiation. PKCepsilon can therefore be considered a signaling intermediate whose expression levels are finely tuned, with a virtually opposite kinetic, in erythroid versus megakaryocytic lineages, to adequately respond to the signaling requirements of the specific hematopoietic lineage.
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PMID:Timing and expression level of protein kinase C epsilon regulate the megakaryocytic differentiation of human CD34 cells. 1756 88

Thyroperoxidase-catalyzed iodination of thyroglobulin and subsequent oxidative coupling of iodinated tyrosyl residues to protein-bound iodothyronines are the key reactions in thyroid hormone biosynthesis. Under sufficient iodine supply, both synthesis steps are rate-limited by the availability of hydrogen peroxide (H(2)O(2)), which is required as final electron acceptor. The primary enzyme feeding H(2)O(2) to thyroid peroxidase is a heterodimeric NADPH oxidase complex of dual oxidase 2 (DUOX2) and DUOX maturation factor 2 (DUOXA2) at the apical plasma membrane. While the thyrotropin receptor mediates most biological effects through the Gs/adenyl cyclase/cAMP pathway, the Gq/phospholipase C-beta cascade induces H(2)O(2) generation via synergistic effects of increased intracellular calcium and protein kinase C activation on DUOX2/DUOXA2. Defects in thyroidal H(2)O(2) generation have been identified in a subset of patients with congenital hypothyroidism. These include loss-of-function mutations in DUOX2 and DUOXA2. Thyrotropin receptor mutations with preferential loss of Gq-coupling may indirectly affect H(2)O(2) production. Expressivity of the defects can be highly variable owning to the presence of genetic modifiers (e.g., the paralogs DUOX1 and DUOXA1), and environmental factors particularly nutritional iodide intake.
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PMID:Defects of thyroidal hydrogen peroxide generation in congenital hypothyroidism. 2012 87

Diabetes mellitus (DM) disrupts the pituitary-thyroid axis and leads to a higher prevalence of thyroid disease. However, the role of reactive oxygen species in DM thyroid disease pathogenesis is unknown. Dual oxidases (DUOX) is responsible for H(2)O(2) production, which is a cosubstrate for thyroperoxidase, but the accumulation of H(2)O(2) also causes cellular deleterious effects. Nicotinamide adenine dinucleotide phosphate oxidase 4 (NOX4) is another member of the nicotinamide adenine dinucleotide phosphate oxidase family expressed in the thyroid. Therefore, we aimed to evaluate the thyroid DUOX activity and expression in DM rats in addition to NOX4 expression. In the thyroids of the DM rats, we found increased H(2)O(2) generation due to higher DUOX protein content and DUOX1, DUOX2, and NOX4 mRNA expressions. In rat thyroid PCCL3 cells, both TSH and insulin decreased DUOX activity and DUOX1 mRNA levels, an effect partially reversed by protein kinase A inhibition. Most antioxidant enzymes remained unchanged or decreased in the thyroid of DM rats, whereas only glutathione peroxidase 3 was increased. DUOX1 and NOX4 expression and H(2)O(2) production were significantly higher in cells cultivated with high glucose, which was reversed by protein kinase C inhibition. We conclude that thyroid reactive oxygen species is elevated in experimental rat DM, which is a consequence of low-serum TSH and insulin but is also related to hyperglycemia per se.
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PMID:Diabetes mellitus increases reactive oxygen species production in the thyroid of male rats. 2340 53

The aryl hydrocarbon receptor (AhR) belongs to the basic-helix-loop helix (bHLH) Per-Arnt-Sim (PAS) family of transcription factors. AhR has been known primarily for its role in the regulation of several drug and xenobiotic metabolizing enzymes, as well as the mediation of the toxicity of certain xenobiotics, including 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). Although the AhR is well-studied as a mediator of the toxicity of certain xenobiotics in marine bivalves, the normal physiological function remains unknown. In order to explore the function of the AhR, the bait protein expression plasmid pGBKT7-CfAhR and the cDNA library of gill from Chlamys farreri were constructed. By yeast two hybrid system, after multiple screening with the high screening rate medium, rotary verification, sequencing and bioinformatics analysis, the interactions of the CfAhR with receptor for activated protein kinase C 1 (RACK1), thyroid peroxidase-like protein (TPO), Toll-like receptor 4(TLR 4), androglobin-like, store-operated Ca(2+) entry (SocE), ADP/ATP carrier protein, cytochrome b, thioesterase, actin, ferritin subunit 1, poly-ubiquitin, short-chain collagen C4-like and one hypothetical protein in gill cells were identified. This study suggests that the CfAhR played fundamental roles in immune system homeostasis, oxidative stress response, and in grow and development of C. farreri. The elucidation of these protein interactions is of much importance both in understanding the normal physiological function of AhR, and as potential targets for further research on protein function in AhR interactions.
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PMID:Identification of interacting proteins with aryl hydrocarbon receptor in scallop Chlamys farreri by yeast two hybrid screening. 2749 85


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