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 have recently identified a novel 190-kD calmodulin-binding protein (p190) associated with the actin-based cytoskeleton from mammalian brain (Larson, R. E., D. E. Pitta, and J. A. Ferro. 1988. Braz. J. Med. Biol. Res. 21:213-217; Larson, R. E., F. S. Espindola, and E. M. Espreafico. 1990. J. Neurochem. 54:1288-1294). These studies indicated that p190 is a phosphoprotein substrate for calmodulin-dependent kinase II and has calcium- and calmodulin-stimulated MgATPase activity. We now have biochemical and immunological evidence that this protein is a novel calmodulin-binding myosin whose properties include (a) Ca2+ dependent action activation of its Mg-ATPase activity, which seems to be mediated by Ca2+ binding directly to calmodulin(s) associated with p190 (maximal activation by actin requires the presence of Ca2+ and is further augmented by addition of exogenous calmodulin); (b) ATP-sensitive cross-linking of skeletal muscle F-actin, as demonstrated by the low-speed actin sedimentation assay; and (c) cross-reactivity with mAbs specific for epitopes in the head of brush border myosin I. We also show that p190 has properties distinct from conventional brain myosin II and brush border myosin I, including (a) separation of p190 from brain myosin II by gel filtration on a Sephacryl S-500 column; (b) lack by p190 of K(+)-stimulated EDTA ATPase activity characteristic of most myosins; (c) lack of immunological cross-reactivity of polyclonal antibodies which recognize p190 and brain myosin II, respectively; (d) lack of immunological recognition of p190 by mAbs against an epitope in the tail region of brush border myosin I; and (e) distinctive proteolytic susceptibility to calpain. A survey of rat tissues by immunoblotting indicated that p190 is expressed predominantly in the adult forebrain and cerebellum, and could be detected in embryos 11 d post coitus. Immunocytochemical studies showed p190 to be present in the perikarya and dendritic extensions of Purkinje cells of the cerebellum.
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PMID:Biochemical and immunological characterization of p190-calmodulin complex from vertebrate brain: a novel calmodulin-binding myosin. 137 47

Ca2+/calmodulin-dependent protein kinase enriched in cerebellar granule cells (CaM kinase Gr) is a neuronal calmodulin-dependent protein kinase whose purification and partial cloning from rat brain has been described. A combination of the polymerase chain reaction and cDNA library screening was used to determine the DNA sequence that encodes most of the remaining polypeptide sequence. The deduced amino acid sequence was confirmed by comparison with the peptide sequence from purified CaM kinase Gr. Analysis of this sequence indicated the presence of potential catalytic, regulatory, and association domains with 42% overall homology to the alpha subunit of another neuronal Ca2+/calmodulin-dependent protein kinase, CaM kinase II. The degree of homology within the catalytic domain was 58% with conservation of all invariant amino acids. The portion of sequence that extended from the hypothesized calmodulin-binding domain to the carboxyl terminus of the protein was identical at both the amino acid and nucleotide level to the noncatalytic, calmodulin-binding protein calspermin from rat testis. Screening a genomic library with a portion of the cDNA for CaM kinase Gr allowed the isolation of a genomic clone that contained at least 9 kilobases (kb) of the gene for CaM kinase Gr. Analysis of the sequence revealed that the coding sequences for calspermin were contained within the CaM kinase Gr gene and that alternative splicing of internal exons may lead to the formation of the two different proteins, CaM kinase Gr and calspermin.
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PMID:Relationship of genes encoding Ca2+/calmodulin-dependent protein kinase Gr and calspermin: a gene within a gene. 164 30

A cDNA representing a unique Ca2+/calmodulin-dependent protein kinase has been cloned and sequenced from a rat brain cDNA library. This enzyme, expressed in brain, testis, and spleen, is only 32% identical to the various isoforms of Ca2+/calmodulin-dependent protein kinase II. The sequence of the COOH-terminal 169 amino acids is identical to that of a previously described male germ cell-specific calmodulin-binding protein called calspermin (T. Ono, G.R. Slaughter, R.G. Cook, and A.R. Means, J. Biol. Chem. 264:2081-2087, 1989). This identity extends to the nucleic acid sequence and includes all but the first 130 nucleotides of the calspermin cDNA. Primer extension and sequence of a genomic fragment containing the unique calspermin sequence reveals that this mRNA is derived from the kinase transcription unit by germ cell-specific use of a unique exon. In situ hybridization was used to demonstrate that both kinase and calspermin mRNAs are expressed during spermatogenesis. The kinase mRNA is first detected in early meiotic cells and declines to a low level in haploid cells. Calspermin mRNA first appears in pachytene primary spermatocytes and continues to increase as cells complete meiosis and undergo terminal differentiation. These results show that differential utilization of a single gene during spermatogenesis is used to generate mRNAs that encode proteins with distinct functions.
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PMID:A novel Ca2+/calmodulin-dependent protein kinase and a male germ cell-specific calmodulin-binding protein are derived from the same gene. 164 85

Calmodulin has been identified in parathyroid cells and is thought to play an important role in the production or secretion of parathyroid hormone. However, a detailed investigation of calmodulin-binding proteins in parathyroid glands has not been conducted. In this study, we attempted to determine the presence of calmodulin-binding protein in human parathyroid adenoma by affinity chromatography. The eluted protein from a calmodulin-coupled Sepharose 4B column with EGTA was analysed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis which revealed a major protein band of Mr 50,000. A Ca2+/calmodulin-dependent protein kinase activity was detected at the protein peak using dephosphorylated casein as a substrate. The 50 kDa band was identified as calcium/calmodulin-dependent protein kinase II (CaM-kinase II) by immunoblotting. The substrate specificity, pH dependency and affinity for calmodulin of this enzyme were identical to those of CaM-kinase II from rat brain. Also, the kinase activity was sensitive to KN-62, a specific inhibitor of CaM-kinase II. In total, 0.48 mg of this kinase was purified from 3 g human parathyroid adenoma.
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PMID:Purification and characterization of calcium-calmodulin kinase II from human parathyroid glands. 166 May 13

We have isolated and sequenced a mouse brain cDNA encoding Ca2+/calmodulin-dependent protein kinase IV. The sequence predicts an acidic protein (pI = 4.56) of 469 amino acids (Mr = 52,627) that contains kinase catalytic and calmodulin-binding domains. The carboxy region has several primary structural features that suggest it may be a readily cleaved attachment domain. This region is highly charged and hydrophilic and contains several PEST sequences, motifs associated with high turnover proteins. Of the tissues examined, expression of the CaM kinase IV gene is restricted to brain and testis, where transcripts are differentially expressed to produce a kinase in both tissues and a calmodulin-binding protein, calspermin, in testis that lacks a kinase catalytic domain.
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PMID:cDNA sequence and differential expression of the mouse Ca2+/calmodulin-dependent protein kinase IV gene. 189 97

Calcium- and calmodulin-regulated ATPase and protein kinase activities are shown to be strongly associated with brain actomyosin. Similar enzymatic activities and an invariable polypeptide profile on sodium dodecyl sulfate-polyacrylamide gel electrophoresis were obtained for brain actomyosin taken through a solubilization-precipitation cycle (1.0-0.1 M KCl), or precipitated from buffers containing 1% Triton X-100 or 10 mM EDTA and 10 mM EGTA. These data suggest a specific complex of brain actomyosin with a protein kinase similar to calmodulin-dependent kinase II, a 190-kDa calmodulin-binding protein (P190), and a calmodulin-like polypeptide. P190 was the major substrate for endogenous calcium-dependent phosphorylation. 125I-Calmodulin overlay technique revealed four major calmodulin-binding polypeptides associated with brain actomyosin: 50- and 60-kDa subunits of the calmodulin-dependent kinase II, P190, and a high molecular weight polypeptide which is probably fodrin. A fraction enriched in P190 had Ca2(+)- and calmodulin-stimulated MgATPase activity, but not myosin-like K-EDTA ATPase activity. The lack of immunological cross-reactivity between brain myosin heavy chain and P190 confirmed that they are distinct molecules.
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PMID:Calmodulin-binding proteins and calcium/calmodulin-regulated enzyme activities associated with brain actomyosin. 213 13

We examined whether protein kinase C activation plays a modulatory or an obligatory role in exocytosis of catecholamines from chromaffin cells by using PKC(19-31) (a protein kinase C pseudosubstrate inhibitory peptide), Ca/CaM kinase II(291-317) (a calmodulin-binding peptide), and staurosporine. In permeabilized cells, PKC (19-31) inhibited the phorbol ester-mediated enhancement of Ca2(+)-dependent secretion as much as 90% but had no effect on Ca2(+)-dependent secretion in the absence of phorbol ester. The inhibition of the phorbol ester-induced enhancement of secretion by PKC (19-31) was correlated closely with the ability of the peptide to inhibit in situ phorbol ester-stimulated protein kinase C activity. PKC(19-31) also blocked 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced phosphorylation of numerous endogenous proteins in permeabilized cells but had no effect on Ca2(+)-stimulated phosphorylation of tyrosine hydroxylase. Ca/CaM kinase II(291-317), derived from the calmodulin binding region of Ca/calmodulin kinase II, had no effect on Ca2(+)-dependent secretion in the presence or absence of phorbol ester. The peptide completely blocked the Ca2(+)-dependent increase in tyrosine hydroxylase phosphorylation but had no effect on TPA-induced phosphorylation of endogenous proteins in permeabilized cells. To determine whether a long-lived protein kinase C substrate might be required for secretion, the lipophilic protein kinase inhibitor, staurosporine, was added to intact cells for 30 min before permeabilizing and measuring secretion. Staurosporine strongly inhibited the phorbol ester-mediated enhancement of Ca2(+)-dependent secretion. It caused a small inhibition of Ca2(+)-dependent secretion in the absence of phorbol ester which could not be readily attributed to inhibition of protein kinase C. Staurosporine also inhibited the phorbol ester-mediated enhancement of elevated K(+)-induced secretion from intact cells while it enhanced 45Ca2+ uptake. Staurosporine inhibited to a small extent secretion stimulated by elevated K+ in the absence of TPA. The data indicate that activation of protein kinase C is modulatory but not obligatory in the exocytotoxic pathway.
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PMID:Activation of protein kinase C is not required for exocytosis from bovine adrenal chromaffin cells. The effects of protein kinase C(19-31), Ca/CaM kinase II(291-317), and staurosporine. 217 38

The guinea pig adrenal cortex consists of a steroidogenic ACTH-responsive outer zone and an ACTH-unresponsive inner zone. It has been suggested that calmodulin plays an important role in ACTH-stimulated steroidogenesis. Thus, in an effort to examine the calmodulin 'system' in the guinea pig adrenal cortex model, Ca2+-dependent binding of calmodulin to proteins in subcellular fractions of the outer and inner zones was examined by the [125I]iodocalmodulin overlay technique and compared to similar studies utilizing pancreas, brain and liver tissue. Although the general pattern of calmodulin-binding proteins was similar for the two adrenocortical zones, quantitatively there was a striking difference with greater binding in the outer zone; this was particularly noteworthy for the mitochondrial fraction. The two most prominent calmodulin-binding proteins isolated from cytosol by calmodulin-Sepharose column chromatography had Mr of 60,000 and 47,000. The size of these two proteins suggested the presence of Ca2+/calmodulin-dependent protein kinase II. Western blot analysis, however, failed to demonstrate calmodulin kinase II in either zone, although it was clearly detectable in brain cytosol. The 60 K calmodulin-binding protein in the adrenal cortex also suggested the presence of the calmodulin-binding A subunit of the Ca2+/calmodulin-stimulated protein phosphatase, calcineurin. Western blot analysis did reveal the presence of calcineurin in the outer adrenocortical zone; it was not detectable, however, in the inner adrenocortical zone. The relation between the striking zonal differential for calmodulin-binding proteins and the zonal differential in ACTH-stimulated steroidogenesis in the guinea pig adrenal cortex will require further investigation.
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PMID:Calmodulin-binding proteins in subcellular fractions of zones of the adrenal cortex. 277 27

Calspermin is a heat-stable, acidic calmodulin-binding protein predominantly found in mammalian testis. The cDNA representing the rat form of this protein has been cloned from a rat testis lambda gt11 library. Sequence analysis of two overlapping clones revealed a 232-nucleotide 5'-nontranslated region, 510 nucleotides of open reading frame, a 148-nucleotide 3'-untranslated region, and a poly(A) tail. Authenticity of the clones was confirmed by comparison of a portion of the deduced amino acid sequence with the sequence of a tryptic peptide obtained from the rat testis protein. The lambda gt11 fusion protein was recognized by affinity purified antibodies to pig testis calspermin and bound 125I-calmodulin in a Ca2+-dependent manner. Calspermin cDNA encodes a 169-residue protein with a calculated Mr of 18,735. The putative calmodulin-binding domain is very close to the amino terminus of the protein. This region shows 46% identity with the calmodulin-binding region of rat brain Ca2+/calmodulin-dependent protein kinase II and 32% identity with the equivalent region of chicken smooth muscle myosin light chain kinase. The 5'-nontranslated region reveals significant homology with a portion of the catalytic region of the calmodulin-dependent protein kinase family. Calspermin contains a stretch of 17 contiguous glutamic acid residues in the central region of the molecule. Computer analysis predicts calspermin to be 81% alpha-helix and 14% random coil. Analysis of genomic DNA indicates calspermin to be the product of a unique gene. Northern blot analysis of rat testis RNA reveals a 1.1-kilobase mRNA. This RNA is restricted to testis among several rat tissues examined and could not be identified in total RNA isolated from testes of other mammals. Analysis of cells isolated from rat testis reveals calspermin mRNA to be predominantly expressed in postmeiotic cells indicating that it may be specific to haploid cells.
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PMID:Molecular cloning sequence and distribution of rat calspermin, a high affinity calmodulin-binding protein. 291 93

We have shown previously that the subcellular distribution of a major calmodulin-binding protein is altered under conditions causing increased synthesis of cAMP in Aplysia neurons (Saitoh, T., and J. H. Schwartz, 1983, Proc. Natl. Acad. Sci. USA, 80:6708-6712). We now provide evidence that this Mr 55,000 protein is a subunit of a Ca2+/calmodulin-dependent kinase: (a) both the Mr 55,000 calmodulin-binding protein and kinase activity are loosely attached to the membrane-cytoskeletal complex; (b) both kinase activity and the Mr 55,000 protein are translocated from the membrane-cytoskeleton complex to the cytoplasm under conditions that cause the change in the subcellular distribution of the Mr 55,000 calmodulin-binding protein; and (c) calmodulin-binding activity of the Mr 55,000 protein and the ability to carry out the Ca2+/calmodulin-dependent phosphorylation of synapsin I are purified in parallel. The subcellular localization of the Ca2+/calmodulin-dependent protein kinase appears to be under control of two second messengers: Ca2+ and cAMP. We find that the Mr 55,000 subunit is phosphorylated when the extracted membrane-cytoskeleton complex is incubated with Ca2+, calmodulin, and ATP, with the concomitant release of this phosphorylated peptide from the complex. Previously, we had found that, when translocation occurs in extracts in the presence of cAMP and ATP (but in the absence of Ca2+), there was no detectable phosphorylation of the Mr 55,000 subunit itself. The subcellular distribution of the subunit thus appears to be influenced by (a) cAMP-dependent phosphorylation, which, we infer, modifies some as yet unidentified structural component, causing the release of the enzyme; and (b) Ca2+/calmodulin-dependent phosphorylation of the Mr 55,000 subunit. These studies also suggest that phosphorylation has an important regulatory consequence: during the Ca2+/calmodulin-dependent translocation of the Mr 55,000 subunit, the kinase appears to be activated, becoming independent of added Ca2+/calmodulin.
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PMID:Phosphorylation-dependent subcellular translocation of a Ca2+/calmodulin-dependent protein kinase produces an autonomous enzyme in Aplysia neurons. 298 86


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