EC:3.1.3.16 - FACTA Search

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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inhibitory protein that binds calmodulin and thus prevents activation of several Ca2+-dependent enzymes by calmodulin is shown to also bind four Ca2+ per mol of protein with high affinity (Kd less than or equal to 10(-6) M). On the basis of its Ca2+- binding properties and its localization to nervous tissue, the inhibitory protein is now called "calcineurin." Calcineurin is composed of two subunits: calcineurin A (61,000 Mr) which interacts with calmodulin in a Ca2+-dependent fashion, and calcineurin B (15,000 Mr) which binds Ca2+. The interaction of calcineurin A with calcineurin B is independent of Ca2+ or Mg2+. The dual interaction of calcineurin A with two different Ca2+-binding components and the high affinity of calcineurin for Ca2+ suggest a possible role for calcineurin in the regulation of free Ca2+ concentrations in the nervous system. Calcineurin may thereby modulate the release and action of neurotransmitters.
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PMID:Calcineurin: a calcium- and calmodulin-binding protein of the nervous system. 29 20

By using an assay specific for detection of calcineurin, a Ca2+/calmodulin-dependent phosphoprotein phosphatase, this enzyme was purified approximately 5,000-fold from extracts of the yeast Saccharomyces cerevisiae. Cna1p and Cna2p, the products of two yeast genes encoding the catalytic (A) subunits of calcineurin, were major constituents of the purified fraction. A third prominent component of apparent molecular mass 16 kDa displayed several properties, including ability to bind 45Ca2+, that are characteristic of the regulatory (B) subunit of mammalian calcineurin and was recognized by an antiserum raised against bovine calcineurin. These antibodies were used to isolate the structural gene (CNB1) encoding this protein from a yeast expression library in the vector lambda gt11. The nucleotide sequence of CNB1 predicted a polypeptide similar in length and highly related in amino acid sequence (56% identity) to the mammalian calcineurin B subunit. Like its counterpart in higher cells, yeast Cnb1p was myristoylated at its N terminus. Mutants lacking Cnb1p, or all three calcineurin subunits (Cna1p, Cna2p, and Cnb1p), were viable. Extracts of cnb1 delta mutants contained no detectable calcineurin activity, even though Cna1p and Cna2p were present at normal levels, suggesting that the B subunit is required for full enzymatic activity in vitro. As was observed previously for MATa cna1 cna2 double mutants, MATa cnb1 mutants were defective in their ability to recover from alpha-factor-induced growth arrest. Thus, the B subunit also is required for the function of calcineurin in promoting adaptation of haploid yeast cells to pheromone in vivo.
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PMID:Regulatory subunit (CNB1 gene product) of yeast Ca2+/calmodulin-dependent phosphoprotein phosphatases is required for adaptation to pheromone. 132 37

Calcineurin A was purified by calmodulin-Sepharose affinity chromatography from Sf9 cells infected with recombinant baculovirus containing the cDNA of a rat calcineurin A isoform. The Sf9-expressed calcineurin A has a low basal phosphatase activity in the presence of EDTA (0.9 nmol/min/mg) which is stimulated 3-5-fold by Mn2+. Calmodulin increased the Mn2+ stimulated activity 3-5-fold. Bovine brain calcineurin B increased the A subunit activity 10-15-fold, and calmodulin further stimulated the activity of reconstituted A and B subunits 10-15-fold (644 nmol/min/mg). The Km of calcineurin A for 32P-RII pep (a peptide substrate (DLDVPIPGRFDRRVSVAAE) for CaN), was 111 microM with or without calmodulin, and calmodulin increased the Vmax about 4-fold. The Km of reconstituted calcineurin A plus B for 32P-RII pep was 20 microM, and calmodulin increased the Vmax 18-fold without affecting the Km. CaN A467-492, a synthetic autoinhibitory peptide (ITSFEEAKGLDRINERMPPRRDAMP) from calcineurin, inhibited the Mn2+/calmodulin-stimulated activities of the reconstituted enzyme and the A subunit with IC50's of 25 microM and 90 microM, respectively. The reconstitution of the phosphatase activity of an expressed isoform of calcineurin A by purified B subunit and calmodulin may facilitate comparative studies of the regulation of calcineurin A activity by the B subunit and calmodulin.
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PMID:Characterization of the phosphatase activity of a baculovirus-expressed calcineurin A isoform. 132 10

Genomic clones containing the full coding sequences of the two subunits of the Ca2+/calmodulin-stimulated protein phosphatase, calcineurin, were isolated from a Drosophila melanogaster genomic library using highly conserved human cDNA probes. Three clones encoded a 19.3-kDa protein whose sequence is 88% identical to that of human calcineurin B, the Ca(2+)-binding regulatory subunit of calcineurin. The coding sequences of the Drosophila and human calcineurin B genes are 69% identical. Drosophila calcineurin B is the product of a single intron-less gene located at position 4F on the X chromosome. Drosophila genomic clones encoding a highly conserved region of calcineurin A, the catalytic subunit of calcineurin, were used to locate the calcineurin A gene at position 21 EF on the second chromosome of Drosophila and to isolate calcineurin A cDNA clones from a Drosophila embryonic cDNA library. The structure of the calcineurin A gene was determined by comparison of the genomic and cDNA sequences. Twelve exons, spread over a total of 6.6 kilobases, were found to encode a 64.6-kDa protein 73% identical to either human calcineurin A alpha or beta. At the nucleotide level Drosophila calcineurin A cDNA is 67 and 65% identical to human calcineurin A alpha and beta cDNAs, respectively. Major differences between human and Drosophila calcineurins A are restricted to the amino and carboxyl termini, including two stretches of repetitive sequences in the carboxyl-terminal third of the Drosophila molecule. Motifs characteristic of the putative catalytic centers of protein phosphatase-1 and -2A and calcineurin are almost perfectly conserved. The calmodulin-binding and auto-inhibitory domains, characteristic of all mammalian calcineurins A, are also conserved. A remarkable feature of the calcineurin A gene is the location of the intron/exon junctions at the boundaries of the functional domains and the apparent conservation of the intron/exon junctions from Drosophila to man.
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PMID:Molecular cloning and characterization of the genes encoding the two subunits of Drosophila melanogaster calcineurin. 133 Oct 60

The interaction of the immunosuppressive complex cyclosporin A-cyclophilin (CsA-CyP) with the Ca2+/calmodulin-dependent protein phosphatase calcineurin is investigated using a recombinant form of the A subunit of calcineurin (rCNA). Only in the presence of purified calcineurin B (CNB) does rCNA show the response of native calcineurin, i.e. 50% inhibition of rCNA phosphatase activity at 6 nM human cyclophilin B and 0.6 microM human cyclophilin A using [32P]casein as substrate, yet stimulation of activity with p-nitrophenyl phosphate as substrate. This study demonstrates that the B subunit is necessary to confer sensitivity of calcineurin to CsA-CyP.
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PMID:Inhibition of calcineurin by cyclosporin A-cyclophilin requires calcineurin B. 133 15

We have isolated a cDNA clone encoding a homolog of mammalian calcineurin B (the regulatory subunit of calmodulin-dependent protein phosphatase) by screening a cDNA expression library of Saccharomyces cerevisiae with antiserum against bovine calcineurin B. The yeast calcineurin B homolog (YCNB) is composed of 175 amino acids with a calculated molecular mass of 19,639 daltons and contains four putative Ca(2+)-binding domains. The amino-acid alignment of YCNB with human calcineurin B demonstrates 53% sequence identity and 82% homology. Southern blot analysis indicates that the gene for YCNB is a single-copy gene. Thus, yeast calmodulin-dependent protein phosphatase apparently has a heterodimeric structure similar to that of the enzyme in mammalians.
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PMID:cDNA cloning of a calcineurin B homolog in Saccharomyces cerevisiae. 165 97

Monoclonal antibodies have been raised against native calcineurin using conventional in vivo immunization and hybridoma procedures. The relatively high affinity of nonimmune IgG for the two subunits of calcineurin resulted in large nonspecific binding values for immunoassays of native, dissociated and denatured calcineurin, which complicated the antibody screening. Monoclonal aCn5, a high-affinity IgG1 that exhibits specific binding, was characterized. Other calmodulin-binding proteins tested were not recognized by aCn5. Simple binding properties were exhibited in solid-phase experiments, Kd = 26 (+/- 4) pM, but the stoichiometry was low. The loss of immunoreactivity after denaturation of calcineurin indicated that the aCn5 epitope is of the assembled topographic, not segmental, type. The epitope was located to the A subunit and affinity was unaffected by the presence of calcineurin B. The epitope remained intact after proteolytic removal of the amino-terminal 20 residues of calcineurin A essential for phosphatase activity, and the carboxyl-terminal inhibitory and calmodulin-binding domains. The calmodulin-binding peptide derived from calcineurin, cA8, was not recognized by aCn5. Addition of Ca2+, Mn2+, Ni2+, chelators or dithiothreitol did not influence the affinity of aCn5 for the holoenzyme. Phosphatase activity of calcineurin, in the presence and absence of calmodulin and after removal of the inhibitory domain, was little affected by aCn5. Thus, the aCn5 epitope defines a previously unidentified structural domain of calcineurin A located in a region of the proteolytically resistant core that is topologically distinct from the catalytic, inhibitory, calmodulin-binding and calcineurin-B-binding domains, and not functionally connected with calcineurin B or the putative metal-binding domain(s).
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PMID:Characterization of a high-affinity monoclonal antibody to calcineurin whose epitope defines a new structural domain of calcineurin A. 247 57

Limited proteolysis of calcineurin, the Ca2+/calmodulin-stimulated protein phosphatase, with clostripain is sequential and defines four functional domains in calcineurin A (61 kDa). In the presence of calmodulin, an inhibitory domain located at the carboxyl terminus is rapidly degraded, yielding an Mr 57,000 fragment which retains the ability to bind calmodulin but whose p-nitrophenylphosphatase is fully active in the absence of Ca2+ and no longer stimulated by calmodulin. Subsequent cleavage(s), near the amino terminus, yield(s) an Mr 55,000 fragment which has lost more than 80% of the enzymatic activity. A third, slower, proteolytic cleavage in the carboxyl-terminal half of the protein converts the Mr 55,000 fragment to an Mr 42,000 polypeptide which contains the calcineurin B binding domain and an Mr 14,000 fragment which binds calmodulin in a Ca2+-dependent manner with high affinity. In the absence of calmodulin, clostripain rapidly severs both the calmodulin-binding and the inhibitory domains. The catalytic domain is preserved, and the activity of the proteolyzed 43-kDa enzyme is increased 10-fold in the absence of Ca2+ and 40-fold in its presence. The calcineurin B binding domain and calcineurin B appear unaffected by proteolysis both in the presence and in the absence of calmodulin. Thus, calcineurin A is organized into functionally distinct domains connected by proteolytically sensitive hinge regions. The catalytic, inhibitory, and calmodulin-binding domains are readily removed from the protease-resistant core, which contains the calcineurin B binding domain. Calmodulin stimulation of calcineurin is dependent on intact inhibitory and calmodulin-binding domains, but the degraded enzyme lacking these domains is still regulated by Ca2+.
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PMID:Functional domain structure of calcineurin A: mapping by limited proteolysis. 254 67

We have identified and cloned human cDNA for the Ca2+-binding subunit of calcineurin, the brain isozyme of the Ca2+/calmodulin-stimulated protein phosphatase. The 2.5-kb cDNA has an open reading frame of 510 bp, a leader sequence of at least 500 bp, and a 1,277-bp 3'-noncoding sequence. The deduced sequence of the human protein differs from bovine brain calcineurin B by an additional valine at the carboxyl terminus and substitution of Met-11 and Ser-153 by cysteine. A partial clone of the mouse protein corresponding to amino acids 75-150 was also isolated. This portion of the human and mouse protein sequence is identical, with the DNA sequences showing 94% identity. The respective mRNAs in human and mouse are also of similar size. As was observed with protein levels, mRNA abundance in brain is 20-60 times that found in other tissues with the exception of HeLa cells which, like brain, contain abundant calcineurin B mRNA.
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PMID:Isolation and sequence of a cDNA clone for human calcineurin B, the Ca2+-binding subunit of the Ca2+/calmodulin-stimulated protein phosphatase. 255 68

The identities and quantities of calcium-binding proteins were determined in axoplasm isolated from the squid giant axon. 45Ca-binding assays on nitrocellulose filters containing axoplasm proteins separated by SDS-polyacrylamide electrophoresis revealed 4 major calcium-binding bands. These included the high-molecular-weight (Mr greater than 330 and 220 X 10(3] neurofilament proteins, an unidentified protein band that migrated around Mr 55,000, and a diverse group of proteins that migrated together around Mr 17,000. The low-molecular-weight (Mr 17,000) calcium-binding proteins could be resolved into calmodulin (ca. 120 mumol/kg axoplasm), 2 other Mr 17,000 calcium-binding proteins, and a small amount of calcineurin B. It is estimated that these calcium-binding proteins in squid axoplasm could theoretically bind about 1 mmol Ca2+/kg axoplasm. 125I-Calmodulin overlay and Western blot analyses disclosed a number of calmodulin-binding proteins in axoplasm. These included fodrin, calcineurin A, and Ca2+/CaM protein kinase II subunits.
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PMID:Identification and quantification of calcium-binding proteins in squid axoplasm. 283 94

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