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)

To begin to understand the regulation and roles of neurofilament phosphorylation, we localized the phosphorylated domains on the 140-145-kDa neurofilament subunit (NF-M) and identified the protein kinases that may specifically phosphorylate the sites within these domains in vivo. Mouse retinal ganglion cells were labeled in vivo by injecting mice intravitreally with [32P]orthophosphate, and neurofilament-enriched fractions were obtained from the optic axons. Two-dimensional phosphopeptide map analysis of NF-M after digestion with alpha-chymotrypsin and trypsin revealed seven major (M8-M14) and at least eight minor (M1-M7 and M15) phosphopeptides. Two-dimensional phosphopeptide map analyses of NF-M phosphorylated in vitro by individual purified or endogenous axonal cytoskeleton-associated protein kinases showed that five peptides (M9-M13) were substrates for the heparin-sensitive second messenger-independent protein kinase(s). Protein kinase A and/or protein kinase C phosphorylated eight other peptides (M1-M8). Two alpha-chymotryptic peptides (C1 and C2) that were phosphorylated by protein kinase A but not by the endogenous independent kinase(s) were isolated by high performance liquid chromatography on a reverse-phase C8 column. Partial sequence analysis of peptides C1 (S R V S G P S ...) and C2 (S R G S P S T V S ...) showed that the peptides were localized on the head domain of NF-M at 25 and 41 residues from the amino terminus, respectively. Tryptic digest of peptide C1 (less than 12 kDa) generated the phosphopeptides M1-M6. Peptide C2 was a breakdown product of peptide C1. Since the polypeptide sites targeted by second messenger-independent kinase(s) associated with neurofilaments are localized on the carboxyl-terminal domain, separate aspects of NF-M function appear to be regulated by separate kinase systems that selectively phosphorylate head or tail domains of the polypeptide.
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PMID:Phosphorylation of the amino-terminal head domain of the middle molecular mass 145-kDa subunit of neurofilaments. Evidence for regulation by second messenger-dependent protein kinases. 210 60

The microtubule array in neuronal cells undergoes extensive growth, dynamics and rearrangements during neurite outgrowth. While little is known about how these changes are regulated, microtubule-associated proteins (MAPs) including tau protein are likely to perform an important role. Tau is one of the MAPs in mammalian brain. When isolated it is usually a mixture of several isoforms containing between 341 and 441 residues that arise from alternative splicing. Tau can be phosphorylated by several protein kinases. Phosphorylation at certain sites results in major structural and functional changes, as seen by changes in electrophoretic mobility, interaction with microtubules, molecular length and elasticity. Here we show that the sites of phosphorylation by four kinases (PKA, PKC, CK and CaMK) all lie in the C-terminal microtubule-binding half of tau, but only the phosphorylation by CaM kinase shows the pronounced shift in electrophoretic mobility characteristic for tau from Alzheimer neurofibrillary tangles. By using a combination of limited proteolysis, protein sequencing and protein engineering we show that a single phosphorylation site is responsible for this shift, located at Ser 405 in the C-terminal tail of the protein outside the region of internal repeats. Phosphorylation at this site not only reduces the electrophoretic mobility of tau, it also makes the protein long and stiff, as shown earlier. The site is likely to be phosphorylated in tau from Alzheimer neurofibrillary tangles.
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PMID:Phosphorylation of microtubule-associated protein tau: identification of the site for Ca2(+)-calmodulin dependent kinase and relationship with tau phosphorylation in Alzheimer tangles. 212 43

The expression of c-fos protein in cultured human glial cells derived from the brain and spinal cord was investigated immunocytochemically. Primary cultures of fetal glial cells were maintained in culture for three weeks and deprived of animal sera for 22 h. The glial cell nature of the cells was ascertained by GFAP-immunoreactivity. Incubations with phorbol dibutyrate, 8-Br-cAMP and sodium nitroprusside representing signal transduction pathways of PKC, PKA and cyclic GMP kinase, respectively, were carried out for 60 and 120 min. The control serum-deprived cultures did not display c-fos protein immunoreactivity (c-fos-IR), whereas phorbol dibutyrate incubation for 120 min induced strong c-fos-IR in the nuclei of both brain and spinal cord derived glial cells. Semiquantitative intensity measurements revealed a slight c-fos-IR induction after 8-Br-cAMP as well, but not after sodium nitroprusside. The observations suggest that c-fos protein is involved in PKC and PKA signal transduction in cultured human glial cells.
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PMID:Immunohistochemical detection of c-fos proteins in cultured human glial cells--induction by cyclic AMP and phorbol ester. 212 26

A new method for the resolution of protein kinases in nondenaturing minigels was used to analyze the type of PKA induced by retinyl acetate in transformed mouse 10T1/2 cells. Protein kinases in 0.5 microliters aliquots of cell extracts were resolved on nondenaturing gradient Phastgels and assayed for PKA activity in situ using a specific peptide substrate and [32P]ATP. Retinyl acetate caused a decrease in type I and an increase in type II PKA isoforms after about 36 h in culture. The system provides a quick and sensitive means for analyzing the activity of PKA isoforms from small numbers of cells.
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PMID:Retinoid induced changes in cAMP-dependent protein kinase activity detected by a new minigel assay. 215 36

Stimulation of transepithelial Cl- secretion by the airway epithelium requires activation of channels at the two opposite sides of the cell: the apical and basolateral membranes. At the apical membrane, the Cl- channel is regulated by phosphorylation with PKA and PKC. At the basolateral membrane, the KCLIC channel is regulated by [Ca2+]c. Addition of a secretagogue that increases cellular levels of cAMP also causes release of Ca2+ from intracellular stores. The Ca2+ may then regulate basolateral membrane KCLIC channels. The cAMP-induced increase in [Ca2+]c and activation of the KCLIC channel is transient, however, whereas activation of the Cl- channel and stimulation of secretion is a more sustained response. Those results suggest that the presence of a second Ca2(+)-independent K+ channel located at the basolateral membrane, which is only expressed in cells grown on permeable supports.
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PMID:Regulation of Cl- and K+ channels in airway epithelium. 215 63

The immune system and the neuroendocrine system have been shown to be functionally interactive. The neuroendocrine system can modulate the immune response and immune mediators can influence the neuroendocrine system. The present paper focuses on the capacity of lymphocytes to produce and secrete neuroendocrine substances. Lymphocytes can secrete the neuropeptide beta-endorphin in response to activation with mitogen or antigen. Moreover, mediators that are involved in the adaptation to stress have also been shown to induce the release of immunoreactive-beta-endorphin by lymphocytes. It is shown here that stimulation of human peripheral blood mononuclear cells with the beta-adrenergic agonist isoprenaline induces beta-endorphin secretion. The effect of isoprenaline can be mimicked by elevation of the intracellular concentration of cAMP with forskolin or (Bu)2cAMP. Inhibition of cAMP-dependent protein kinase PKA by the antagonist N-[2-(methylamino)ethyl]-5-isoquinoline-sulfonamide abrogates isoprenaline-induced secretion of immunoreactive-beta-endorphin by peripheral blood mononuclear cells. The present data give evidence that, beta-adrenergic activation activation of lymphocytes stimulates the secretion of ir-beta-endorphin via a protein kinase A-dependent mechanism. Both beta-adrenergic agonists as well as beta-endorphin have been shown to modulate the immune response. The data presented here are indicative for a role of beta-endorphin in the modulation of the immune response after beta-adrenergic activation.
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PMID:In vitro beta-adrenergic stimulation of lymphocytes induces the release of immunoreactive beta-endorphin. 216 45

Cellular responses to many hormones and neurotransmitters wane rapidly despite continuous exposure of cells to these stimuli. This phenomenon, termed desensitization, has been particularly well studied for the stimulation of cAMP levels by plasma membrane beta-adrenergic receptors (beta AR). The molecular mechanisms underlying rapid beta AR desensitization do not appear to require internalization of the receptors, but rather an alteration in the functioning of beta AR themselves that uncouples the receptors from the stimulatory G protein Gs. This uncoupling phenomenon involves phosphorylation of beta AR by at least two kinases, PKA and the beta AR kinase (beta ARK), which are activated under different desensitizing conditions. Receptor phosphorylation by the two kinases leads to desensitization of the receptor response via distinct biochemical mechanisms, and additional cytosolic factors appear to be involved in the case of beta ARK. Numerous experimental approaches have been used recently to elucidate the molecular details of this ubiquitous biological process.
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PMID:Turning off the signal: desensitization of beta-adrenergic receptor function. 216 47

2',3' cyclic nucleotide-3'-phosphodiesterase (CNP) is phosphorylated in the peripheral nervous system after immunoprecipitation of myelin proteins radiolabeled in vivo, in nerve slices and in a cell-free system. Only radiolabeled phosphoserine was detected after partial acid hydrolysis of immunoprecipitated CNP. Two major phosphopeptides were resolved by two dimensional electrophoresis-chromatography after digestion with trypsin of CNP phosphorylated in the nerve slices. Phosphorylation of CNP was not stimulated a) by forskolin in the nerve slices and b) after incubation of purified nerve myelin with cAMP. However, CNP phosphorylation was increased after incubation of PNS myelin with catalytic unit of protein kinase A. Phosphorylation of the central nervous system myelin CNP was dramatically stimulated by cAMP. These results suggest that PKA may be absent from peripheral nerve myelin or CNP may not be accessible to this enzyme in the PNS. Incubation of nerve slices with phorbol 12 myristate-13-acetate caused a marked increase in the phosphorylation of CNP. These results provide strong evidence that CNP is phosphorylated in the PNS and its phosphorylation in vivo is in all probability regulated by protein kinase C.
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PMID:2',3'cyclic nucleotide-3'-phosphodiesterase in peripheral nerve myelin is phosphorylated by a phorbol ester-sensitive protein kinase. 216 8

The morphological and functional characteristics and the activities of cyclic AMP- (PKA I and PKA II) and calcium and phospholipid-dependent (PKC) protein kinases were studied in 2-day-old suspension cultures of porcine thyroid cells and were compared with those in freshly dissociated cells and intact glands. Thyroid cell morphology changed during the 2-day culture in the absence of specific regulators. This is characterized by a loss of cellular polarity, exo- and endocytotic vesicles and membranes of the rough endoplasmic reticulum, and an increase in the number of lysosomes, pseudomyelinic structures, lipidic inclusions and free ribosomes. Functional changes are characterized by a progressive decrease in protein iodination and its sensitivity to TSH stimulation. The total PKA activity in the cytosols of these cultures was slightly greater than that of freshly prepared tissue, due to the selective and significant accumulation of PKA I in cultured cells. In the particulate fraction the PKA activity was unchanged. PKC is the major kinase activity in porcine thyroids, and remains so in cultured cells. The slight drop in its activity in cytosols was offset by a significant increase in the particulate fraction, suggesting an intracellular redistribution of this kinase in cultured cells. The PKC activity is also partly activated in both the cytosol and particulate fraction, which results in an increased basal activity. The changes in PKA and PKC activities greatly modified the PKC/PKA ratios in the cytosols and the particulate fractions of cultured cells. These modifications could be partly responsible for the changes in sensitivity of cultured cells to the agents which control their activity.
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PMID:Changes in cAMP-dependent and Ca2(+)-phospholipid-dependent protein kinase activities in suspension cultures of porcine thyroid cells. 217 Feb 12

Sodium-phosphate cotransport in the PTH-responsive opossum kidney (OK) cell line is inhibited by PTH, cAMP, and activators of protein kinase C. In order to probe the role of cAMP, we stably transfected OK cells with an expression vector for a cAMP-binding mutation of the murine protein kinase A regulatory subunit. Two-dimensional electrophoresis of cAMP-binding proteins from transfected cells indicated a 20-fold overexpression of the mutant regulatory unit. Protein kinase A from these cells had a 20-fold increase in the concentration of cAMP required for half-maximal activation, 2.8 microM vs. 0.15 microM for wild type cells. In the transfected cells, Na-phosphate cotransport was insensitive to up to 1 mM 8-Br-cAMP and 1 microM PTH, while these same agonists caused a significant inhibition of transport in the wild type cells. The effects on Na-phosphate cotransport of the protein kinase C activators oleoyl-acetyl glycerol and tetradecanoyl-phorbol acetate, which were marked in the wild type cells, were still present, although attenuated, in the transfected mutants. With prolonged passage, the cAMP-insensitive phenotype reverted to wild type cAMP sensitivity despite continued selection for the cotransfected neo marker. The revertant cells had a normal cAMP requirement for half-maximal activation of protein kinase A, 0.13 microM, and the PTH and cAMP-sensitive inhibition of Na-phosphate cotransport was restored. We suggest that an intact and normally cAMP-sensitive protein kinase A pathway is an absolute requirement for PTH inhibition of Na-phosphate cotransport in the OK cell.
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PMID:Transfection-mediated expression of a dominant cAMP-resistant phenotype in the opossum kidney (OK) cell line prevents parathyroid hormone-induced inhibition of Na-phosphate cotransport. A protein kinase-A-mediated event. 217 19


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