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)

We observed the distribution pattern of Ca2+/calmodulin-dependent protein kinase IV in rat brain and spinal cord using an immunohistochemical method by light and electron microscopy. Particularly strong immunoreactivity was detected in the telencephalic structures such as the olfactory bulb, cerebral cortex, hippocampal formation, caudate-putamen, most nuclei of the dorsal thalamus and the granule cell layer of the cerebellum. Relatively weak staining was observed in the amygdaloid body, some neuron groups of the brainstem reticular formation, the inferior olivary nucleus and the posterior horn of the spinal cord. Immunohistochemical reactivity was not detected in the globus pallidus, substantia nigra, sensory and motor nuclei of the cranial nerves, or in the spinal cord anterior horn. Overall, the distribution of Ca2+/calmodulin-dependent protein kinase IV-like immunoreactivity broadly paralleled the sites of expression of signals for messenger RNA of this enzyme. At the subcellular level, Ca2+/calmodulin-dependent protein kinase IV-like immunoreactivity appeared exclusively in the nuclei of neurons in the various brain regions, and immunopositive reactivity, although less strong, was also observed in dendritic processes, as well as on the granular endoplasmic reticulum in neuronal somata in these areas. Axon terminals, however, did not show immunoreactivity. These studies demonstrate that Ca2+/calmodulin-dependent protein kinase IV-like immunoreactivity is distributed widely in the central nervous system. The significance of the localization of this enzyme in nuclei is discussed in relation to gene expression.
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PMID:An immunohistochemical study of Ca2+/calmodulin-dependent protein kinase IV in the rat central nervous system: light and electron microscopic observations. 747 23

Polyclonal antibody against Ca2+/calmodulin-dependent protein kinase V (CaM kinase V) was prepared from guinea pigs immunized with synthetic polypeptide, based on the partial amino acid sequence of the rat brain enzyme. Immunoblot analysis of purified CaM kinase V revealed two immunoreactive bands with a molecular mass of 41 kDa and minor 40 kDa, respectively. Tissue distribution of CaM kinase V and immunohistochemical localization in rat brain were also investigated. Immunoblotting revealed the presence of immunoreactive proteins with the same molecular mass of 40 and 41 kDa, in the cerebrum, cerebellum, brain stem, pituitary gland, lung, adrenal gland, spleen, liver, colon, heart, stomach, ovary, spinal cord, and thymus. Immunohistochemistry revealed strong staining in the neuronal somata and weak staining in the nuclei. Densely stained regions included the cerebral cortex, the hippocampal formation, the caudatoputamen, the globus pallidus, the hypothalamus, the substantia nigra, the medial geniculate body, the olfactory bulb, the cerebellar cortex and the choroid plexus. CaM kinase V revealed different substrate specificity compared with CaM kinase II. These results lead to the notion that CaM kinase V may exist in 40- and 41-kDa isoforms, is widely distributed in various tissues, and may play an important role in the control of a wide variety of calcium regulated processes in the respective tissues.
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PMID:Ca2+/calmodulin-dependent protein kinase V: tissue distribution and immunohistochemical localization in rat brain. 803 Nov 38

R2D5 is a mouse monoclonal antibody that labels rabbit olfactory receptor neurons. Immunoblot analysis showed that mAb R2D5 recognizes a 22-kD protein with apparent pI of 4.8, which is abundantly contained in the olfactory epithelium and the olfactory bulb. We isolated cDNA for R2D5 antigen and confirmed by Northern analysis and neuronal depletion technique that R2D5 antigen is expressed predominantly, but not exclusively, in olfactory receptor neurons. Analysis of the deduced primary structure revealed that R2D5 antigen consists of 189 amino acids with calculated M(r) of 20,864 and pI of 4.74, has three calcium-binding EF hands, and has possible phosphorylation sites for Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) and cAMP-dependent protein kinase (A kinase). Using the bacterially expressed protein, we directly examined the biochemical properties of R2D5 antigen. R2D5 antigen binds Ca2+ and undergoes a conformational change in a manner similar to calmodulin. R2D5 antigen is phosphorylated in vitro by CaM kinase II and A kinase at different sites, and 1.81 and 0.80 mol of Pi were maximally incorporated per mol of R2D5 antigen by CaM kinase II and A kinase, respectively. Detailed immunohistochemical study showed that R2D5 antigen is also expressed in a variety of ependymal cells in the rabbit central nervous system. Aside from ubiquitous calmodulin, R2D5 antigen is the first identified calcium-binding protein in olfactory receptor neurons that may modulate olfactory signal transduction. Furthermore our results indicate that olfactory receptor neurons and ependymal cells have certain signal transduction components in common, suggesting a novel physiological process in ependymal cells.
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PMID:R2D5 antigen: a calcium-binding phosphoprotein predominantly expressed in olfactory receptor neurons. 822 52

The expression of mRNAs encoding gamma and delta subunits of Ca2+/calmodulin-dependent protein kinase type II (CaM kinase II) in the brain of mature and postnatally developing rats was examined by in situ hybridization histochemistry. At the adult stage, mRNAs for both subunits were expressed in the olfactory bulb, and piriform cortex. The cerebral neocortex expressed the gamma subunit mRNA evenly through the layers II to VI at a moderate level, whereas the delta subunit mRNA was expressed in a distinctly laminar distribution. The hippocampal pyramidal and dentate granule cells expressed the gamma subunit mRNA intensely without any significant expression signals for the delta subunit. In the cerebellum, moderate expression signals for the gamma subunit were confined to the Purkinje cell layer, while intense expression signals for the delta subunit were detected in the cerebellar granule cell layer, without any significant expression signals in the Purkinje cell layer. In the spinal cord, mRNA for the gamma subunit was expressed in neurons throughout the gray matter, while the expression of mRNA for the delta subunit was confined to neurons in laminae I and IX. The expression pattern of genes for both subunits was basically accomplished at birth with lower intensity, except for the striatum and cerebellar Purkinje cells, which transiently expressed mRNA for the gamma and delta subunits, respectively, at birth. These results indicate that the expression of genes for each of the subunits of CaM kinase II is differentially regulated in various brain regions and that the individual subunits are involved in differential functions in mature and developing rat brain.
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PMID:Differential expression of mRNAs encoding gamma and delta subunits of Ca2+/calmodulin-dependent protein kinase type II (CaM kinase II) in the mature and postnatally developing rat brain. 825 81

Inhibition of type III adenylyl cyclase (III-AC) by intracellular Ca2+ in vivo provides a mechanism for attenuation of hormone-stimulated cAMP signals in olfactory epithelium, heart, and other tissues (Wayman, G. A., Impey, S., and Storm, D. R. (1995) J. Biol. Chem. 270, 21480-21486). Although the mechanism for Ca2+ inhibition of III-AC in vivo has not been defined, inhibition is not mediated by Gi, cAMP-dependent protein kinase, or protein kinase C. However, Ca2+ inhibition of III-AC is antagonized by KN-62, a CaM-dependent kinase inhibitor. In addition, constitutively activated CaM kinase II inhibits the enzyme. These data suggest that CaM kinase II regulates the activity of III-AC by direct phosphorylation or by an indirect mechanism involving phosphorylation of a protein that inhibits III-AC. Here we report that III-AC is phosphorylated in vivo when intracellular Ca2+ is increased and that phosphorylation is prevented by CaM-dependent kinase inhibitors. Site-directed mutagenesis of a CaM kinase II consensus site (Ser-1076 to Ala-1076) in III-AC greatly reduced Ca2+-stimulated phosphorylation and inhibition of III-AC in vivo. These data support the hypothesis that Ca2+ inhibition of III-AC is due to direct phosphorylation of the enzyme by CaM kinase II in vivo.
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PMID:Phosphorylation and inhibition of type III adenylyl cyclase by calmodulin-dependent protein kinase II in vivo. 879 67

Death-associated protein kinase (DAP kinase) has been recently identified as a novel Ca2+/calmodulin-dependent protein kinase and as a potential mediator of gamma interferon-induced cell death of Hela cells, which has cytological characteristics of the programmed cell death. In order to elucidate its functional roles in the rat brain where the programmed cell death is an essential mechanism in the organization of postmitotic neurons during development, we cloned a rat homologue of the human DAP kinase from the rat embryonic brain cDNA library. The deduced amino acid sequence was highly conserved between the two species (93.6%). By in situ hybridization histochemistry, the expression of DAP kinase mRNA was observed in the mantle and ventricular zones of the entire neuraxis on embryonic day 15. However, the overall expression in the brain decreased markedly after birth and the expression was maintained at substantial levels in several restricted mature neuronal populations, such as olfactory bulb, hippocampal formation and cerebellar Purkinje and granule cells. Its wide expression during development and its maintained expression in the restricted mature neuronal population suggest that DAP kinase might be involved in some neuronal functions beyond simply executing the developmental neuronal cell death.
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PMID:Molecular cloning and developmental expression of a rat homologue of death-associated protein kinase in the nervous system. 949 46

C. elegans detects several odorants with the bilaterally symmetric pair of AWC olfactory neurons. A stochastic, coordinated decision ensures that the candidate odorant receptor gene str-2 is expressed in only one AWC neuron in each animal--either the left or the right neuron, but never both. An interaction between the two AWC neurons generates asymmetric str-2 expression in a process that requires normal axon guidance and probably AWC axon contact. This interaction induces str-2 expression by reducing calcium signaling through a voltage-dependent Ca2+ channel and the CaM kinase II UNC-43. CaMKII activity acts as a switch in the initial decision to express str-2; thus, calcium signals can define distinct cell types during neuronal development. A cGMP signaling pathway that is used in olfaction maintains str-2 expression after the initial decision has been made.
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PMID:Lateral signaling mediated by axon contact and calcium entry regulates asymmetric odorant receptor expression in C. elegans. 1057 Nov 81

Molecular biology and microscope imaging techniques were used to map putative neural substrates of hyperactivity and attention deficit in an animal model, the juvenile prehypertensive male spontaneously hypertensive rat (SHR). We have studied in anterior forebrain sections of SHR and Wistar-Kyoto Normotensive (WKY) controls the spatial distribution of neural markers such as: (i) dopamine (DA) D-1 and D-2 receptor families by radioligand binding studies; (ii) the Ca2+/calmodulin-dependent protein kinase II (CaMKII); and (iii) the transcription regulators of gene expression (TFs) c-FOS and JUN-B by Immunocytochemistry (ICC). Microcomputer-assisted high-resolution image analysis showed in the SHR a higher density of DA D-1 receptors and a lower density of D-3 autoreceptors paralleled by a reduced number of elements positive for CaMKII and TFs in a restricted segment of the anterior forebrain that included the most rostral portions of the caudate-putamen, pole and shell of the nucleus accumbens and olfactory tubercle. The differential rostro-caudal distribution of D-1 receptors and D-3 autoreceptors is discussed in the light of current hypotheses of DA mesocorticolimbic system functioning. In addition, the segmental defect was partially reversed by subchronic treatment with a DA re-uptake blocker, Methylphenidate (MPH; 3 mg/kg) and by environmental stimulation during the fifth and sixth postnatal week. The findings are consistent with the role of genetic determinants and environmental factors in the phenotypic expression of hyperactivity and attention deficit.
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PMID:Multiple evidence of a segmental defect in the anterior forebrain of an animal model of hyperactivity and attention deficit. 1065 74

Spatial learning and memory involves the ability to encode geometric relationships between perceived cues and depends critically on the hippocampus. Visually guided spatial learning has been demonstrated in adult animals. As infant animals rely heavily on olfaction, olfactory based spatial learning was assessed in infant mice. When 12-day-old pups were displaced from their nest, they learned within a few training trials to use the spatial pattern of odor cues to move back to the nest. However, mouse pups that over-expressed Ca2+/calmodulin-dependent protein kinase (CaMKII) in hippocampal neurons were impaired in olfactory based spatial learning.
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PMID:Olfactory based spatial learning in neonatal mice and its dependence on CaMKII. 1079 Aug 81

Unilateral naris closure produced dramatic down-regulation of tyrosine hydroxylase (TH) gene expression in periglomerular dopaminergic neurons in the olfactory bulb. To explore molecular mechanisms of TH gene regulation, the present study investigated the regional distribution of protein kinase A (PKAalpha), protein kinase C (PKCalpha), and CaM kinases II (CaMKIIalpha, beta) and IV (CaMKIV) in the normal olfactory bulb and in response to odor deprivation. Strong PKAalpha immunostaining was found in the glomerular, granule cell, external plexiform and olfactory nerve layers. PKCalpha staining was strong in granule cell and external plexiform layers but weak in the glomerular layer. Whereas CaMKIV was primarily found in granule cells, CaMKII was present in the glomerular, external plexiform, mitral cell and granule cell layers. No change in immunoreactivities of these kinases occurred in the olfactory bulb ipsilateral to naris closure. The expression of PKAalpha, PKCalpha and CaMKII, but not CaMKIV, in periglomerular cells suggests that these three kinases may play a role in TH gene regulation in the olfactory bulb. The lack of change in kinase protein levels after naris closure also suggests that any involvement of these kinases in TH gene expression in the olfactory bulb must be through altered kinase activity and not protein levels.
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PMID:Regional distribution of protein kinases in normal and odor-deprived mouse olfactory bulbs. 1094 3


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