Gene/Protein Disease Symptom Drug Enzyme Compound
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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 rat GH (rGH) gene is expressed in the pituitary in a highly tissue-specific manner. A pituitary-specific transcription factor, Pit-1 (or GHF-1), and other, more tissue-general factors, including the thyroid hormone receptor (T3R), are important for regulating rGH promoter activity. The relative roles of Pit-1, T3R, and protein kinases in the activation of the rGH promoter were studied. Each component was supplied individually or in combination with the others to human monocyte U937 cells. The transfected rGH promoter was inactive in these cells even when it was cotransfected with either Pit-1 or T3R expression vectors. The rGH promoter carried in a truncated pUC vector could be activated by expression of the T3R if the cells were cultured with inducers of protein kinase-A (forskolin) and protein kinase-C [phorbol 12-myristate 13-acetate (PMA)] activity. By contrast, the PMA- and forskolin-dependent activation of the rGH promoter by Pit-1 expression was comparatively insignificant unless 1) the sequences deleted from the pUC vector (including a putative site for the transcription factor AP1) were restored to the plasmid carrying the rGH promoter; or 2) the T3R was coexpressed, which led to a marked synergistic response. These results indicate the relative inactivity of Pit-1 in isolation from other factors. Activation by forskolin and PMA did not require de novo protein synthesis. The synergistic activation by Pit-1 and the T3R was enhanced, but was not dependent upon, thyroid hormone (T3). The T3-dependent effect operated predominately through a thyroid hormone response element located up-stream of the two Pit-1-binding sites within the rGH promoter, whereas the T3-independent effect did not require any of the known T3R-binding sites on the rGH promoter. These results suggest a role for the more tissue-general T3R and protein kinases in the activation of the rGH promoter. They demonstrate the synergistic interplay between the T3R and Pit-1, underscore the dependence of Pit-1 action on other transcription factors, and implicate Pit-1 as a cofactor, rather than the dominant factor, influencing the tissue-specific expression of the rGH promoter.
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PMID:Synergistic activation of the rat growth hormone promoter by Pit-1 and the thyroid hormone receptor. 158 27

We investigated the influence of the thyroid hormone status on the levels of protein kinases C (PKC) and A (PKA) in the soluble fraction of rat liver. The immunodetectable PKC level in hypothyroid liver was elevated 7.7-fold, whereas the phorbol-ester binding capacity and the immunodetectable alpha-PKC level were increased 2.4- and 2.6-fold, respectively. Conversely, in hypothyroid livers the abundance of the regulatory type I and the catalytic subunits of PKA were lowered to 42% of the euthyroid level as determined by immunoblotting and by measuring the substrate specific phosphorylation rate of PKA. These changes in the PKC and PKA levels were reversible upon treatment with 0.5 microgram T4/100 g body weight for 2-21 days. The thyroid state dependent alterations in hepatic PKC and PKA levels may be responsible for the known changes in the response of hepatocytes to other hormonal stimuli in hypothyroidism.
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PMID:Effect of hypothyroidism and thyroid hormone replacement on the level of protein kinase C and protein kinase A in rat liver. 203 57

We describe a method of culturing intact porcine thyroid follicles for physiological de novo thyroid hormone formation; the roles of cAMP and protein kinase-C in thyroid hormone formation were also studied. Thyroid follicles were obtained by digesting minced porcine thyroid tissue with 0.04% collagenase and cultured in Coon's Modified Ham's F-12 medium supplemented with 0.5% calf serum, 0.5 mU/ml TSH, other standard hormones, and 3 antibiotics (6H medium). On the fourth day of culture, 6000-8000 follicles/well were plated in 12-well culture dishes. On the sixth day, thyroid hormone formation was carried out by incubating thyroid follicles with 0.5 microM KI in the presence of 6H medium for 2 days in a 5% CO2-95% air incubator at 37 C. To examine the effects of cAMP and protein kinase-C on de novo thyroid hormone formation, follicles were incubated with KI in the presence of 1-2.5 mM (Bu)2cAMP, 10 microM forskolin, 2 microM prostaglandin E2 (PGE2), or 0.5-1 microM 12-O-tetradecanoylphorbol-13-acetate in TSH-free medium for 2 days. The amount of newly formed thyroid hormone was measured by RIA of T3 content in the Pronase digest of thyroid follicular cells. Thyroid follicles cultured in 6H medium had normal polarity of the membrane, determined by electron microscope, and thyroid cAMP was responsive to the alteration of TSH. In this culture system cAMP alone was sufficient to form thyroid hormone. 12-O-Tetradecanoylphorbol-13-acetate, a protein kinase-C stimulator, disrupted thyroid follicles and inhibited cAMP-mediated thyroid hormone formation. The integrity of follicular structure was also required for thyroid hormone formation in this culture system. This study introduces perhaps the most physiological culture system for de novo thyroid hormone formation. Our data provide direct evidence that thyroid hormone formation is linked to cAMP and that the protein kinase-C system acts as an inhibitor of thyroid hormone formation.
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PMID:Physiological de novo thyroid hormone formation in primary culture of porcine thyroid follicles: adenosine 3',5'-monophosphate alone is sufficient for thyroid hormone formation. 215 8

The effects of beta-adrenergic stimulation on the relaxation rate and the Ca2+-transport rate in sarcoplasmic reticulum of hypothyroid, euthyroid and hyperthyroid rat hearts were studied. Administration of isoproterenol (0.1 microM) to perfused, electrically stimulated hearts (5 Hz) caused a decrease in the half-time of relaxation (RT 1/2) the extent of which depended on the thyroid status, i.e. hypothyroid (-24%), euthyroid (-19%) or hyperthyroid (-8%). A similar decreasing effect was found for the stimulation of Ca2+ transport in isolated SR by cyclic AMP and protein kinase, i.e. hypothyroid (75%), euthyroid (37%) and hyperthyroid (20%). These alterations were not due to differences in endogenous protein kinase activity or cyclic AMP production. Estimations of Ca2+-ATPase and phospholamban (PL) content of the sarcoplasmic reticulum were obtained by measurement of the phosphorylated forms of Ca2+-ATPase (E-P) and phospholamban (PL-P) followed by electrophoresis and autoradiography. A 3-fold decrease of PL-P, accompanied by a 2-fold increase of E-P per mg of protein was observed in sarcoplasmic reticulum preparations in the direction hypothyroid----hyperthyroid. Consequently the E-P/PL-P ratio increased from 0.32 (hypothyroid), through 0.81 (euthyroid) to 1.69 (hyperthyroid). In spite of certain limitations inherent to quantification of Ca2+-ATPase and phospholamban by their phosphorylated products, these data provide strong evidence that during thyroid-hormone mediated cardiac hypertrophy, with concomitant proliferation of the sarcoplasmic reticulum, the relative amount of phospholamban decreases with respect to Ca2+-ATPase. This could provide an explanation for the observed gradual diminishment of the beta-adrenergic effect on the relaxation rate when cardiac tissue is exposed to increasing amounts of thyroid hormone.
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PMID:On the mechanism of the reduction by thyroid hormone of beta-adrenergic relaxation rate stimulation in rat heart. 254 82

The role of the two different isozymes of the cAMP-dependent protein kinase is still unclear. We have investigated the potential roles for each isozyme in dog thyroid cells, a model in which the function, expression of differentiation and proliferation are positively regulated by thyrotropin acting through cyclic AMP. The dog thyroid contains both type I and type II cAMP-dependent protein kinases. These isozymes were selectively activated in vitro by type-I-directed and type-II-directed analog pairs. In thyroid slices, both type-I directed and type II-directed analog pairs synergistically activated thyroid hormone synthesis, as measured by incorporation of 131I into proteins and thyroid hormone secretion as determined by the release of butanol-extractable 131I. In primary cultures of dog thyroid cells both isozyme-directed analog pairs synergistically enhanced iodide trapping, a marker of differentiation, and DNA synthesis, as measured by the percentage of cells incorporating [3H]thymidine into their nuclei. However, DNA synthesis was more sensitive to type-I-directed pairs. The results demonstrate that both cAMP-dependent protein kinase isozymes can mediate the action of cAMP on function, differentiation expression and cell proliferation in dog thyroid cells.
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PMID:Pairs of cyclic AMP analogs, that are specifically synergistic for type I and type II cAMP-dependent protein kinases, mimic thyrotropin effects on the function, differentiation expression and mitogenesis of dog thyroid cells. 255 Feb 22

The c-erbA alpha progenitor of the v-erbA oncogene of avian erythroblastosis virus (AEV) encodes a nuclear receptor for the thyroid hormone triiodothyronine (T3) which acts as a ligand-dependent transcription factor. As previously reported (Goldberg et al., EMBO J., 7, 2425-2433), the 46 kd chicken c-erbA alpha-encoded T3 receptor (ck-ErbA alpha) is phosphorylated at two major sites. Only one of these sites (Ser28/Ser29) is retained in the v-erbA-encoded P75gag-v-erbA protein. We report here the identification of the second phosphorylation site of ck-ErbA alpha as a single serine residue localized at position 12. We propose that casein kinase II, a protein kinase distributed in the cytosolic and nuclear compartments of a number of different tissues, is responsible for serine 12 phosphorylation on the following grounds. First, serine 12 is part of a sequence containing multiple acidic amino-acids, a feature common to all sites phosphorylated by casein kinase II in physiological substrates. Second, ck-ErbA alpha was found to be phosphorylated by purified casein kinase II in vitro at the same site, as defined by two-dimensional mapping experiments, as that observed in vivo. Third, conversion of serine 12 into an unphosphorylatable alanine residue by site directed mutagenesis abolishes the phosphorylation of ck-ErbA alpha by casein kinase II in vitro. Phosphorylation of serine 12 is likely to play a role in the modulation of ErbA alpha function since both serine 12 and the casein kinase II phosphorylation sequence motif are phylogenetically conserved in all known members of the c-erbA alpha gene family encoding T3 binding proteins. The codon specifying serine 12 in ck-ErbA alpha being precisely the point where recombination between gag and ck-c-erbA alpha occurred to generate v-erbA, our results furthermore suggest that deletion of serine 12 could contribute to the oncogenic activation of v-erbA.
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PMID:The c-erbA alpha-encoded thyroid hormone receptor is phosphorylated in its amino terminal domain by casein kinase II. 255 74

Thyroid abnormalities may develop during chronic lithium therapy for affective disorders. Lithium, like iodide, inhibits TSH stimulation of adenylate cyclase and thyroid hormone release. The present study examined the effect of lithium on stimulation of intrathyroidal intermediary metabolism by several agonists. LiCl (5 mmol/l) did not inhibit basal cAMP, glucose oxidation or 32P incorporation into phospholipids in dog thyroid slices. Although LiCl inhibited TSH stimulation of cAMP, it did not abolish the hormone's effect on cAMP-dependent protein kinase. The stimulation of iodide organification, glucose oxidation or 32P incorporation into phospholipids by TSH, carbachol and phorbol esters was not inhibited by lithium. This is in contrast to the effects of iodide, which inhibited stimulation of glucose oxidation and 32P incorporation into phospholipids by various agonists. Thus, although both lithium and iodide inhibited TSH-stimulated cAMP formation, they act differently on intrathyroidal intermediary metabolism.
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PMID:Effects of lithium on stimulated metabolic parameters in dog thyroid slices. 255 92

We examined the extranuclear effects of thyroid hormones on human platelets. Pretreatment with DL-thyroxine or DL-triiodothyronine inhibited collagen-induced aggregation, in a dose-dependent manner, but other derivatives of thyroid hormone had no significant effects. In contrast to collagen, 12-O-tetradecanoylphorbol-13-acetate-induced aggregation was not affected by thyroid hormones at the same concentration range. Thyroxine also inhibited the release of [14C] serotonin from collagen-stimulated platelets, with a marked reduction in the phosphorylation of 20,000-dalton protein. Thyroxine and triiodothyronine had inhibitory effects on myosin light chain kinase purified from human platelets and inhibited more markedly the myosin light chain kinase than protein kinase C (Ca2+/phospholipid-dependent enzyme) and cAMP-dependent protein kinase. In addition, L-thyroxine behaved as a competitive inhibitor of myosin light chain kinase toward calmodulin, and the Ki value was calculated to be 2.6 microM. To determine whether or not thyroxine directly binds myosin light chain kinase, we prepared an affinity column, using L-thyroxine as the ligand. Myosin light chain kinase was selectively bound to the column while calmodulin passed through. We also designed a procedure for the purification of myosin light chain kinase from human platelets, using L-thyroxine-affinity chromatography. A markedly increased purification was thus achieved, and DEAE-cellulose and L-thyroxine-affinity chromatography were made feasible. These results suggest that thyroxine can serve as a pharmacological tool for elucidating the biological significance of myosin light chain kinase-mediated reactions and is a pertinent ligand which can be used to purify myosin light chain kinase from platelets as a substitute for calmodulin.
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PMID:Thyroid hormones inhibit platelet function and myosin light chain kinase. 272 89

The occurrence and regulation by thyroid hormone of four protein kinases (cyclic AMP independent and dependent, calcium/calmodulin stimulated, and calcium/phosphatidyl serine stimulated protein kinases) was studied in primary cultures of cells dissociated from embryonic mouse brain. Serum from a thyroidectomized calf, which contained low levels of L-3,5,3'-triiodothyronine, T3 (less than 25 ng/100 ml), and thyroxine, T4 (less than 1 microgram/100 ml) was used in the culture medium in place of normal calf-serum (T3, 130 ng/100 ml; T4 5.9 micrograms/100 ml) to render the cultures responsive to exogenously added T3. Cultures grown in hypothyroid calf-serum containing medium had less cAMP dependent and independent protein kinase activity than control cultures grown in normal calf-serum containing medium. However, this activity was restorable to a considerable degree if the cultures grown in hypothyroid calf serum containing medium were supplemented with L-3,5,3'-triiodothyronine (T3). The presence of calcium/calmodulin stimulated protein kinase was also distinctly observed. In comparison, the activity of calcium/phosphatidyl serine stimulated protein kinase was less than the other protein kinases.
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PMID:Investigations on myelinogenesis in vitro: II. The occurrence and regulation of protein kinases by thyroid hormone in primary cultures of cells dissociated from embryonic mouse brain. 282 May 25

The c-erbA proto-oncogene encodes a nuclear receptor for thyroid hormone (T3), which is believed to stimulate transcription from specific target promoters upon binding to cis-acting DNA sequence elements. The v-erbA oncogene of avian erythroblastosis virus (AEV) encodes a ligand-independent version of this nuclear receptor. The v-erbA product inhibits terminal differentiation of avian erythroblasts, presumably by affecting the transcription of specific genes. We show here that the c-erbA-encoded nuclear receptor (p46c-erbA) is phosphorylated on serine residues on two distinct sites. One of these sites, defined by the limit tryptic phosphopeptide 28SSQCLVK, is retained on the v-erbA-encoded P75gag-v-erbA protein. This site is located in the amino-terminal domain of these molecules, 21 amino acids upstream of the DNA-binding region. Phosphorylation of this site in both p46c-erbA and P75gag-v-erbA is enhanced 10-fold following treatment of cells with activators of either protein kinase C or cAMP-dependent protein kinase. Since cAMP-dependent protein kinase phosphorylates both p46c-erbA and P75gag-v-erbA in vitro at the same site as that observed in vivo, at least part of the cAMP-dependent phosphorylation of erbA molecules in cells could result from direct phosphorylation by this enzyme. The possible role phosphorylation may play in the function of the erbA-encoded transcriptional factors is discussed.
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PMID:Activation of protein kinase C or cAMP-dependent protein kinase increases phosphorylation of the c-erbA-encoded thyroid hormone receptor and of the v-erbA-encoded protein. 290 25


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