Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.17 (CaMKII)
 4,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protein kinase activity (ATP:protein phosphotransferase, EC 2.7.1.37) has been found associated with the D2 hybrid protein, a highly purified protein of 107,000 daltons specified by the adenovirus-simian virus 40 (SV40) hybrid Ad2(+)D2, which has many properties associated with authentic SV40 T antigen [Tjian, R. & Robbins, A. (1979) Proc. Natl. Acad. Sci. USA 76, 610-614]. We have now examined some of the biochemical characteristics of the reaction products. Acceptors for the terminal phosphoryl group of [gamma-(32)P]ATP are the purified protein itself and at least four proteins extracted from nuclei of uninfected cells. Purified histones do not serve as substrate for the enzyme. Phosphorylation is markedly reduced by heating the D2 hybrid protein to 50 degrees C for 30 min. The products of phosphorylation are stable to treatment with ethanol/ether, DNase, and RNase, but completely degraded by digestion with Pronase, demonstrating their protein nature. The phosphate bonds are liable to hot alkali and sensitive to digestion with alkaline phosphatase but stable to treatment with hot acid or hydroxylamine. These results provide evidence that (32)P is incorporated into O-phosphoserine or O-phosphothreonine residues of acceptor proteins, indicating that the enzymatic activity is characteristic for protein kinase, and that cell-specified nuclear proteins other than histones may serve as substrates for the enzyme.
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PMID:Protein kinase activity associated with the D2 hybrid protein related to simian virus 40 T antigen: some characteristics of the reaction products. 22 74

Protein phosphorylation is considered an early cellular mechanism of signal transduction by surface immunoglobulins (sIg) and other receptors of B cells. Using intact human peripheral blood B cells of young subjects labeled with orthophosphate, increased phosphorylation levels of serine/threonine and tyrosine substrates were demonstrated on indicator phosphoproteins corresponding to the CD20 isoforms and microtubule-associated protein 2 kinase after cross-linking sIg and costimulation with phorbol diesters. By contrast, stimulated B cells from certain elderly subjects displayed substantial alterations in the phosphorylation patterns of serine/threonine or tyrosine indicator phosphoproteins. Also, age-related impairments in sIg stimulated mobilization of cytosolic protein kinase C (PKC) enzymatic activity and in cytosolic calcium [Ca2+]i responses of B cells were observed with the altered phosphorylation reactions. Comparison of the substrate phosphorylation profiles to the proliferative responses of stimulated B cells from individual elderly subjects suggested a model of signal transduction in which differing stimuli have different dependencies on phosphorylation reactions. Diminished proliferative responses after sIg ligation coincided with decreased phosphorylations of either tyrosine or serine/threonine indicator substrates. However, the decreased proliferative responses of B cells from elderly subjects with substantial reductions of tyrosine phosphorylation after sIg ligation were enhanced by the direct stimulation of serine/threonine kinase activity with phorbol diesters or CD40 ligation. Experiments with kinase inhibitors evaluated the relative dependency of different B cell stimuli on tyrosine and serine/threonine phosphorylation reactions. The proliferative responses of normal B cells to sIg ligation were quite sensitive to the tyrosine kinase inhibitor genistein whereas those observed following costimulations with phorbol diesters or CD40 ligation were more resistant. However, treatment of B cells with H7, an inhibitor of PKC activity, led to a more uniform reduction of B-cell responses after different stimuli. Results from RNase protection assays of c-myc expression also suggested that different B-cell stimuli might utilize distinct intracellular signaling pathways. Both the type of stimuli and mode of sIg ligation were important in determining the stimulated levels of c-myc mRNA expression. Thus, the current findings suggest that age-related defects are present in human B cell signaling pathways as reflected by tyrosine and serine/threonine phosphorylation reactions. Also, these age-related defects can coexist with altered mobilization of PKC enzymatic activity and with alterations in [Ca2+]i and proliferative responses.
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PMID:Signal transduction in human B cells during aging: alterations in stimulus-induced phosphorylations of tyrosine and serine/threonine substrates and in cytosolic calcium responsiveness. 180 9

Ca2+/calmodulin-dependent protein kinase I (CaM kinase I) was previously purified from bovine brain (Nairn, A. C., and Greengard, P. (1987) J. Biol. Chem. 262, 7273-7281) based on its ability to phosphorylate the synaptic vesicle protein, synapsin I at site 1. The cDNA for this protein kinase has now been cloned from both a rat and a bovine brain cDNA library and the complete amino acid sequence of rat CaM kinase I determined. The rat cDNA encoded a protein of 331 amino acids with a calculated M(r) of 37,545, and the encoded kinase was expressed in bacteria as a glutathione S-transferase fusion protein. The resulting fusion protein was purified by Sepharose-CaM affinity chromatography and shown to be totally dependent on Ca2+ and CaM for activity. Furthermore, the purified kinase phosphorylates synapsin I at the same site (site 1) as the endogenous brain enzyme. CaM kinase I is homologous to other known protein kinases and contains all nine invariant amino acids conserved in the catalytic domain of this class of enzymes. CaM kinase I was most identical to CaM kinase II both in the catalytic domain and in a short region at the COOH-terminal that is predicted to be the calmodulin-binding domain. CaM kinase I appeared to be encoded by a single gene. RNase protection assays detected the mRNA encoding CaM kinase I in all tissues examined. High concentrations of the kinase mRNA were found in all regions of the brain with frontal cortex showing the greatest level. CaM kinase I was autophosphorylated in a Ca2+/CaM-dependent manner at a threonyl residue (Thr-177) which is located at a position equivalent to that of the threonyl residue (Thr-197) autophosphorylated in cAMP-dependent protein kinase.
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PMID:Calcium/calmodulin-dependent protein kinase I. cDNA cloning and identification of autophosphorylation site. 825 80

Multifunctional Ca2+/calmodulin-dependent protein kinase (CaM kinase) is a mediator of calcium signals in diverse signaling pathways. In human lymphocytes and epithelial tissues, CaM kinase activates a chloride channel via a Ca(2+)-dependent pathway which is preserved in cystic fibrosis. To characterize the CaM kinase present in these tissues we have cloned an isoform of this kinase from human T lymphocytes. We show the cDNA structure of two variants of this human CaM kinase, gamma B and gamma C, which are predicted to translate to 518 and 495 amino acids, respectively. Amino acid differences between these isoforms and the rat brain gamma isoform (which we refer to as gamma A) are localized to the variable domain. We used RNase protection of this variable region to reveal the level of expression of gamma B and gamma C CaM kinase mRNAs in nine human tissues and cell lines. When transfected into Jurkat T cells, the gamma B cDNA encoded a functional kinase which cosedimented on sucrose gradients with endogenous T cell CaM kinase activity and formed a large multimeric enzyme. The recombinant gamma B isoform displayed two phases of autophosphorylation characteristic of CaM kinases, including the phase which converts it to a partially Ca(2+)-independent species. Site-directed mutagenesis of the predicted autoinhibitory domain yielded a mutant which was approximately 37% active in the absence of Ca2+/calmodulin, confirming the region as critical for autoregulation, and suggesting this mutant as a tool for studying the role of CaM kinase in nonneuronal tissues.
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PMID:Cloning and analysis of two new isoforms of multifunctional Ca2+/calmodulin-dependent protein kinase. Expression in multiple human tissues. 844 10

The promoter region of the alpha-subunit of the calcium/calmodulin-dependent protein kinase II (alpha-CaMKII) gene was inserted into a beta-galactosidase (beta-gal) reporter plasmid, and beta-gal activities were examined in neuroblastoma (NB2a) and pheochromocytoma (PC12) cells after transient or stable transfections. The alpha-CaMKII promoter was 12- to 45-fold more active in NB2a compared with PC12 cells after transient or stable transfections. All-trans retinoic acid (RA) stimulated reporter gene expression at both protein and mRNA levels in transfected PC12 cells. RA increased the level of endogenous alpha-CaMKII mRNA in untransfected PC12 cells by 4.4-fold. The transcription initiation site(s) (TIS) of the alpha-CaMKII gene in PC12 cells and rat brain was examined by RNase protection assays (RPA) and reverse transcriptase PCRs. The TIS for the alpha-CaMKII/beta-gal reporter gene in transfected PC12 cells was indistinguishable from the TIS+1 in rat hippocampus. In contrast, the only detectable TIS for the alpha-CaMKII gene in untransfected PC12 cells was located near the ATG translation start codon, 147 nucleotides 3' to TIS+1 in hippocampus. This unusual TIS was also the predominant TIS in rat cerebellum. These results suggest that the alpha-CaMKII promoter may contain sequences that respond directly or indirectly to RA. In addition, the unusual TIS of the alpha-CaMKII gene in PC12 cells and rat cerebellum may contribute to the very low expression of this gene compared with that in hippocampus.
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PMID:Retinoic acid stimulates alpha-CAMKII gene expression in PC12 cells at a distinct transcription initiation site. 879 26

To examine the role of Ca2+/calmodulin-dependent protein kinase II (CaMKII) in cell differentiation and neuronal functions, stable transformants of PC12 cells were established that expressed levels of the alpha-subunit of CaMKII (alpha CaMKII) equivalent to mammalian neurons. The expression of the transfected alpha CaMKII gene or the endogenous beta CaMKII gene was monitored by RNase protection assays, and alpha CaMKII protein expression was determined by Western blots. Several PC12-derived clones expressed amounts of alpha CaMKII mRNA and alpha CaMKII protein similar to that of hippocampal tissues and several orders of magnitude greater than untransfected PC12 cells. CaMKII catalytic activity was four times higher in extracts from alpha CaMKII-overexpressing compared with untransfected PC12 cells. All clones overexpressing alpha CaMKII displayed altered cellular growth and adhesion properties including increased cell-to-substrate adhesion, decreased cell-to-cell adhesion, enhanced contact inhibition, and prolonged survival at confluency. Furthermore, the alpha CaMKII activity in overexpressing PC12 cells inhibited neurite elongation during NGF-induced differentiation. Inhibition of CaMKII activity in vivo with KN-62 caused the morphological phenotypes of alpha CaMKII-overexpressing cells to partially revert to that of untransfected PC12 cells. These results show that alpha CaMKII catalytic activity affects growth, morphology, and NGF-induced differentiation of PC12 cells.
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PMID:Overexpression of Ca2+/calmodulin-dependent protein kinase II in PC12 cells alters cell growth, morphology, and nerve growth factor-induced differentiation. 899 47

Retinoic acid is a lipophilic derivative of vitamin A that can cause differentiation in a variety of cell types. A large body of evidence has shown that normal retinoid signaling is required for proper neutrophil maturation in vitro and in vivo. In this study, we have found that calcium/calmodulin dependent (CaM) protein kinase kinase alpha (CaMKKalpha) is upregulated in an immediate early fashion during retinoic acid induced neutrophil maturation. Furthermore, we describe the expression and modulation of various components of the CaM kinase cascade during neutrophil maturation. We have confirmed upregulation of CaMKKalpha protein by Western analysis and further show that CaMKKbeta is expressed, although its protein levels are constant throughout induction. We also find that neutrophil progenitor cells express both CaMKI and CaMKIV transcripts. RNase protection and Western analysis show that CaMKIV is downregulated during neutrophil maturation. In contrast, CaMKI transcript and protein is expressed in uninduced cells and is induced by all-trans retinoic acid. These data represent the first report of a CaM kinase cascade in myeloid cells and suggests that this cascade may mediate some of the well-characterized effects of calcium on neutrophil function. These observations also support the idea that the retinoic acid receptors play a major role in mediating neutrophil specific gene expression and differentiation.
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PMID:Modulation of a calcium/calmodulin-dependent protein kinase cascade by retinoic acid during neutrophil maturation. 1056 Sep 16

Studies were performed to determine the effects of acute and chronic voluntary periods of exercise on the expression of hippocampal genes. RNAs from rodents exposed to a running wheel for 3, 7 and 28 days were examined using a microarray with 1176 cDNAs expressed primarily in the brain. The expression of selected genes was quantified by Taqman RT-PCR or RNase protection assay. The largest up-regulation was observed in genes involved with synaptic trafficking (synapsin I, synaptotagmin and syntaxin); signal transduction pathways (Ca2+/calmodulin-dependent protein kinase II, CaM-KII; mitogen-activated/extracellular signal-regulated protein kinase, MAP-K/ERK I and II; protein kinase C, PKC-delta) or transcription regulators (cyclic AMP response element binding protein, CREB). Genes associated with the glutamatergic system were up-regulated (N-methyl-d-aspartate receptor, NMDAR-2A and NMDAR-2B and excitatory amino acid carrier 1, EAAC1), while genes related to the gamma-aminobutyric acid (GABA) system were down-regulated (GABAA receptor, glutamate decarboxylase GAD65). Brain-derived neurotrophic factor (BDNF) was the only trophic factor whose gene was consistently up-regulated at all timepoints. These results, together with the fact that most of the genes up-regulated have a recognized interaction with BDNF, suggest a central role for BDNF on the effects of exercise on brain plasticity. The temporal profile of gene expression seems to delineate a mechanism by which specific molecular pathways are activated after exercise performance. For example, the CaM-K signal system seems to be active during acute and chronic periods of exercise, while the MAP-K/ERK system seems more important during long-term exercise.
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PMID:Differential effects of acute and chronic exercise on plasticity-related genes in the rat hippocampus revealed by microarray. 1238 40