Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

It has been shown, using spindles assembled in vitro in extracts containing CSF (the cytostatic factor responsible for arresting unfertilized vertebrate eggs at metaphase), that onset of anaphase requires Ca(2+)-dependent activation of the ubiquitin-dependent proteolytic pathway that destroys both mitotic cyclins and an unknown protein responsible for metaphase arrest (Holloway et al., 1993, Cell, 73, 1382-1402). We showed recently that Ca2+/calmodulin-dependent protein kinase II (CaM KII) activates the ubiquitin-dependent cyclin degradation pathway in CSF extracts (Lorca et al., 1993, Nature, 366, 270-273), but did not investigate its possible effect on sister chromatid segregation. In this work we identify CaM KII as the only target of Ca2+ in inducing anaphase in CSF extracts, and further show that transition to anaphase does not require the direct phosphorylation of metaphase spindle components by CaM KII. A possible interpretation of the above results could have been that the ubiquitin-dependent degradation pathway is required for onset of anaphase only when spindles are clamped at metaphase due to CSF activity, and not in the regular cell cycle that occurs in the absence of CSF activity. We ruled out this possibility by showing that competitive inhibition of the ubiquitin-dependent degradation pathway still prevents the onset of anaphase in cycling extracts that lack CSF and do not require Ca2+ for sister chromatid separation.
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PMID:The proteolysis-dependent metaphase to anaphase transition: calcium/calmodulin-dependent protein kinase II mediates onset of anaphase in extracts prepared from unfertilized Xenopus eggs. 792 78

Several kinases have been shown to phosphorylate tau protein at Ser-262, an important site involved in the regulation of the binding of tau to microtubules. In this study we compared the phosphorylation of tau at Ser-262 by CaMKII, PhK and PKA in vitro as determined by radioimmunoblots developed by the monoclonal antibody 12E8 which recognizes P-Ser-262 and P-Ser-356; and Ab-262, a polyclonal antibody which is specific to unphosphorylated Ser-262 in tau. We found that the phosphorylation at Ser-262 was several times more effective by CaMKII than PKA or PhK. Employing rat brain extract as a source of all brain kinases and KN-62, a specific inhibitor of CaMKII, we found that CaMKII accounts for approximately 45% of phosphorylation at Ser-262. Furthermore, in rat brain slices kept metabolically active in oxygenated artificial CSF, phosphorylation of tau at Ser-262 was (i) increased up to 120% in the presence of bradykinin, a CaMKII activator, and (ii) inhibited by approximately 35% in the presence of KN-62. Thus, CaMKII is a major tau Ser-262 kinase in mammalian brain.
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PMID:Ser-262 in human recombinant tau protein is a markedly more favorable site for phosphorylation by CaMKII than PKA or PhK. 980 Nov 71

The multipotent cytokine granulocyte macrophage-colony stimulating factor (GM-CSF) is involved in particular in the physiological response to infection and in inflammatory responses. GM-CSF is produced by many cell types, including T lymphocytes responding to T-cell receptor activation and mantle zone B lymphocytes. B-cell receptor and T-cell receptor activation generates two major signals: an increase in intracellular Ca(2+) concentration and a protein kinase cascade. Previous studies have shown that the Ca(2+)/calmodulin-dependent phosphatase calcineurin mediates stimulation of GM-CSF transcription in response to Ca(2+). In this study, we show that Ca(2+) signaling also regulates GM-CSF transcription negatively through Ca(2+)/calmodulin-dependent kinase II (CaMK II) phosphorylation of serines in the autoinhibitory domain for DNA binding of the transcription factor Ets1. Wild-type Ets1 negatively affects GM-CSF transcription on Ca(2+) stimulation in the presence of cyclosporin A, which inhibits calcineurin. Conversely, Ets1 with mutated CaMK II target serines showed an increase in transactivation of the GM-CSF promoter/enhancer. Moreover, constitutively active CaMK II inhibited transactivation of GM-CSF by wild-type Ets1 but not by Ets1 with mutated CaMK II sites. Mutation of CaMK II target serines in Ets1 also relieves inhibition of cooperative transactivation of GM-CSF with the Runx1/AML1 transcription factor. In addition, the Ca(2+)-dependent phosphorylation of Ets1 reduces the binding of Ets1 to the GM-CSF promoter in vivo.
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PMID:Calcium regulation of GM-CSF by calmodulin-dependent kinase II phosphorylation of Ets1. 1247 68

Behavioral and movement disorders may have antibody responses where mimicry and signal transduction may lead to neuropsychiatric abnormalities. In our study, antibodies in pediatric autoimmune neuropsychiatric disorders associated with streptococci (PANDAS) reacted with the neuronal cell surface and caudate-putamen and induced calcium-calmodulin dependent protein (CaM) kinase II activity in neuronal cells. Depletion of serum IgG abrogated CaM kinase II cell signaling and reactivity of CSF was blocked by streptococcal antigen N-acetyl-beta-d-glucosamine (GlcNAc). Antibodies against GlcNAc in PANDAS sera were inhibited by lysoganglioside G(M1). Results suggest that antibodies from an infection may signal neuronal cells in some behavioral and movement disorders.
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PMID:Antibody-mediated neuronal cell signaling in behavior and movement disorders. 1687 42

Fertilization in mammals is accompanied by Ca(2+) oscillations in the egg cytoplasm, leading to exit from meiosis and entry into the first embryonic cell cycle. The signal transduction pathway linking these Ca(2+) changes to cell-cycle related kinases has not yet been fully elucidated, but involves activation of calmodulin-dependent kinase II (CaMKII). Here, we develop a computational model to investigate the mechanism by which cell cycle resumption can be sensitive to the temporal pattern of Ca(2+) increases. Using a model for CaMKII activation that reproduces the frequency sensitivity of this kinase, simulations confirm that Ca(2+) spikes are accompanied by in phase variations in the level of CaMKII activity and suggest that in most mammalian species, Ca(2+) spikes are well suited to maximize CaMKII activation. The full model assumes that CaMKII brings about a decrease in the level of cyclinB-cdk1 by two pathways, only one of which is CSF-dependent. Parameters are selected to account for the experimental observations where mouse eggs were artificially activated by different Ca(2+) stimulatory protocols. The model is then used in the context of 'assisted oocyte activation (AOA)' to investigate why the best rates of successful activation are obtained when eggs are submitted to two applications of Ca(2+) ionophores.
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PMID:Oscillatory Ca2+ dynamics and cell cycle resumption at fertilization in mammals: a modelling approach. 2020 38

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