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

Calcineurin is a calcium-dependent protein phosphatase that plays a pivotal role in antigen-stimulated T cell activation. The complexes formed between the immunosuppressants cyclosporin A and FK506 and their respective intracellular binding proteins (immunophilins) block T cell activation by binding to calcineurin. Recent studies have shown that the immunophilin-immunosuppressant complexes interact with the latch region of the calcineurin B subunit (Milan, D., Griffith, J., Su, M., Price, E. R., and McKeon, F. (1994) Cell 79, 437-447). Mutations in the B subunit-binding domain of the calcineurin A subunit result in a reduction of calcineurin activity that correlates with B binding affinity. Calcineurin A subunit mutants D348A, F350A, W352A, S353A, and E359A lost greater than 90% of their activity to activate the transcription factor NF kappa B in Jurkat T cells. Furthermore, calcineurin A subunit mutants of residues Thr351, Leu354, and Lys360 showed NF kappa B transactivation activity and phosphatase activity with increased resistance to FKBP12-FK506 but displayed no or minimal increase in resistance for cyclosporin A inhibition. Together, these results strongly suggest that the B subunit-binding domain is required for calcineurin activity intracellulary and interacts with the FKBP12-FK506 complex.
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PMID:Interaction of FKBP12-FK506 with calcineurin A at the B subunit-binding domain. 754 Oct 44

The X-ray structure of the ternary complex of a calcineurin A fragment, calcineurin B, FKBP12, and the immunosuppressant drug FK506 (also known as tacrolimus) has been determined at 2.5 A resolution, providing a description of how FK506 functions at the atomic level. In the structure, the FKBP12-FK506 binary complex does not contact the phosphatase active site on calcineurin A that is more than 10 A removed. Instead, FKBP12-FK506 is so positioned that it can inhibit the dephosphorylation of its macromolecular substrates by physically hindering their approach to the active site. The ternary complex described here represents the three-dimensional structure of a Ser/Thr protein phosphatase and provides a structural basis for understanding calcineurin inhibition by FKBP12-FK506.
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PMID:X-ray structure of calcineurin inhibited by the immunophilin-immunosuppressant FKBP12-FK506 complex. 754 69

Calcineurin is a heterodimeric Ca2+/calmodulin-dependent protein phosphatase that regulates signal transduction and is the target of immunophilin-immunosuppressive drug complexes in T-lymphocytes and in yeast. Calcineurin is composed of a catalytic A subunit and a regulatory B subunit that is myristoylated at its amino terminus. We employed genetic and biochemical approaches to investigate the functional roles of myristoylation of calcineurin B (CNB1) in Saccharomyces cerevisiae. A calcineurin B mutant in which glycine 2 was substituted by alanine (CNB1-G2A) did not incorporate [3H]myristate when expressed in yeast. Both wild-type calcineurin B and the CNB1-G2A mutant protein are partially associated with membranes and cytoskeletal structures; hence, myristoylation is not required for these associations. In several independent genetic assays of calcineurin functions (recovery from alpha-factor arrest, survival during cation stress, and viability of a calcineurin-dependent strain), the nonmyristoylated CNB1-G2A mutant protein exhibited full biological activity. In vitro, both wild-type and CNB1-G2A mutant proteins formed complexes with both cyclophilin A-cyclosporin A (CsA) and FKBP12-FK506 that contained calcineurin A. Interestingly, expression of the nonmyristoylated CNB1-G2A mutant protein rendered yeast cells partially resistant to the immunosuppressant CsA, but not to FK506. This study demonstrates that calcineurin B myristoylation is not required for function, but may participate in inhibition by the cyclophilin A-CsA complex.
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PMID:Myristoylation of calcineurin B is not required for function or interaction with immunophilin-immunosuppressant complexes in the yeast Saccharomyces cerevisiae. 755 4

Recombinant forms of the A and B subunits of the protein phosphatase calcineurin were produced in Escherichia coli, reconstituted into a heterodimer and purified to homogeneity. The reconstituted heterodimer exhibited properties like that of bovine brain calcineurin. This included calmodulin-stimulated activity and a subunit stoichiometry and Stokes radius consistent with native-like structure. In order to map the region on the A subunit where calcineurin B binds, a series of overlapping 20-residue peptides corresponding to this putative domain were synthesized. Using isolated calcineurin A and B subunits, an assay that relied upon peptide inhibition of calcineurin B stimulation of calcineurin A activity was developed. All five peptides, but not a control peptide, inhibited calcineurin B-dependent stimulation of calcineurin A although with different potencies. The three most effective inhibitory peptides spanned calcineurin A residues 338-377. These three peptides also altered the electrophoretic mobility of the isolated calcineurin B subunit during native polyacrylamide gel electrophoresis indicating a direct interaction between these peptides and calcineurin B. The peptide corresponding to residues 348-367 was also able to block binding of calcineurin B to the catalytic subunit.
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PMID:Calcineurin subunit interactions: mapping the calcineurin B binding domain on calcineurin A. 759 26

A cDNA clone encoding the calcium-binding subunit of calcineurin, calcineurin B, was isolated from a bovine brain library by immunoscreening. The 841 bp cDNA has a 56 bp 5'-noncoding region, an open reading frame of 510 bp, and a 275 bp 3'-noncoding sequence. The deduced amino acid sequence of bovine calcineurin B differs from the previously reported protein sequence (Aitken et al., 1984) by three residues. The sequence contained additional valine at the carboxyl terminus and substitutions of Met-11 and Ser-153 (the positions according to Aitken et al., 1984) by cysteine. The amino acid sequence of bovine calcineurin B was found to be identical to that of human calcineurin B sequence (Guerini et al., 1989). In fact, 97.1% homology was observed between the coding regions of human and bovine calcineurin B. In addition, a very high homology of 95.2% was observed for the 3'-noncoding region while the 5'-noncoding region showed 58.9% homology. The beta-galactosidase fusion protein, having the apparent molecular weight of 29 kDa, was detected on Western blots by subunit B-specific monoclonal antibody (Matsui et al., 1985). Northern analysis revealed that there is a single calcineurin B transcript in bovine brain which is 2.3 kb in length. This is in agreement with the observation of only one immunologically detectable subunit B protein in bovine brain (Matsui et al., 1985).
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PMID:Isolation and characterization of a cDNA clone coding for the calcium-binding subunit of calcineurin from bovine brain: an identical amino acid sequence to the human protein. 780 16

A cDNA encoding the regulatory subunit of Ca2+/calmodulin-dependent protein phosphatase, calcineurin B (CNB), was isolated from a rat testis cDNA library. It differs from the cDNA obtained from a rat brain cDNA library by an addition of 138 base pairs in the coding region. The codon of the clone from a testis library corresponding to the initiation codon of the clone from a brain library is not ATG but AAG, 5'-noncoding regions of these cDNAs are also different. The addition in the coding region results in the gain of 46 amino acids at the N-terminus. These findings suggest that two distinct isoforms of CNB alpha are derived from the same gene through a process involving alternative utilization of two promoters. We designate the brain type isoform as CNB alpha 1 and the longer isoform as CNB alpha 2. Northern blot analysis and reverse transcriptase-polymerase chain reaction (RT-PCR) followed by Southern blot analysis suggest that CNB alpha 2 is specifically expressed in the testis, and its expression is developmentally regulated.
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PMID:cDNA cloning of an alternatively spliced isoform of the regulatory subunit of Ca2+/calmodulin-dependent protein phosphatase (calcineurin B alpha 2). 811 Aug 31

NaCl-sensitive yeast mutants were isolated to identify genes essential for NaCl tolerance. Complementation of a mutant highly sensitive to Na+ and Li+ led to the isolation of the CNB1 gene. This gene encodes the regulatory subunit (CNB) of the Ca2+/calmodulin-dependent protein phosphatase calcineurin. Cells deficient in CNB accumulated Li+ due to reduced expression of ENA1, a gene encoding a P-type ATPase involved in Na+ and Li+ efflux. In addition, the K+ transport system of cnb1 delta cells was not converted to the high affinity state that facilitates better discrimination of K+ over Na+. Thus the cnb1 delta strain resembled a trk1 mutant. These results indicate that adaptation to NaCl stress in Saccharomyces cerevisiae requires a signal transduction pathway involving Ca2+ and protein phosphorylation-dephosphorylation. In this pathway, calcineurin would coordinate gene expression and activity of ion transporters to facilitate ion homeostasis.
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PMID:The protein phosphatase calcineurin is essential for NaCl tolerance of Saccharomyces cerevisiae. 813 12

The calmodulin- and calcium-stimulated protein phosphatase calcineurin, PP2B, consists of two subunits: calcineurin B, which binds Ca2+, and calcineurin A, which contains the catalytic site and a calmodulin binding site. Heteronuclear 3D and 4D NMR experiments were carried out on a recombinant human calcineurin B which is a 170-residue protein of molecular mass 19.3 kDa, uniformly labeled with 15N and 13C. The nondenaturing detergent CHAPS was used to obtain a monomeric form of calcineurin B. Three-dimensional triple resonance experiments yielded complete sequential assignment of the backbone nuclei (1H, 13C, and 15N). This assignment was verified by a 4D HN(COCA)NH experiment carried out with 50% randomly deuteriated and uniformly 15N- and 13C-enriched calcineurin B. The secondary structure of calcineurin B has been determined on the basis of the 13C alpha and 13C beta secondary chemical shifts, J(HNH alpha) couplings, and NOE connectivities obtained from 3D 15N-separated and 4D 13C/15N-separated NOESY spectra. Calcineurin B has eight helices distributed in four EF-hand, helix-loop-helix [Kretsinger, R. H. (1980) CRC Crit. Rev. Biochem. 8, 119-174] calcium binding domains. The secondary structure of calcineurin B is highly homologous to that of calmodulin. In comparison to calmodulin, helices B and C are shorter while helix G is considerably longer. As was observed for calmodulin in solution, calcineurin B does not have a single long central helix; rather, helices D and E are separated by a six-residue sequence in a flexible nonhelical conformation.
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PMID:1H, 13C, 15N nuclear magnetic resonance backbone assignments and secondary structure of human calcineurin B. 814 51

The dependence of calcineurin on Ca2+ for activity is the result of the concerted action of calmodulin, which increases the turnover rate of the enzyme and modulates its response to Ca2+ transients, and of calcineurin B, which decreases the Km of the enzyme for its substrate. The calmodulin-stimulated protein phosphatase calcineurin is under the control of two functionally distinct, but structurally similar, Ca(2+)-regulated proteins, calmodulin and calcineurin B. The Ca(2+)-dependent activation of calcineurin by calmodulin is highly cooperative (Hill coefficient of 2.8-3), and the concentration of Ca2+ needed for half-maximum activation decreases from 1.3 to 0.6 microM when the concentration of calmodulin is increased from 0.03 to 20 microM. Conversely, the affinity of calmodulin for Ca2+ is increased by more than 2 orders of magnitude in the presence of a peptide corresponding to the calmodulin-binding domain of calcineurin A. Calmodulin increases the Vmax without changing the Km value of the enzyme. Unlike calmodulin, calcineurin B interacts with calcineurin A in the presence of EGTA, and Ca2+ binding to calcineurin B stimulates native calcineurin up to only 10% of the maximum activity achieved with calmodulin. The Ca(2+)-dependent activation of a proteolyzed derivative of calcineurin, calcineurin-45, which lacks the regulatory domain, was used to study the role of calcineurin B. Removal of the regulatory domain increases the Vmax of calcineurin, as does binding of calmodulin, but it also increases the affinity of calcineurin for Ca2+. Ca2+ binding to calcineurin B decreases the Km value of calcineurin without changing its Vmax.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dual calcium ion regulation of calcineurin by calmodulin and calcineurin B. 820 20

Cyclosporin A, a calcineurin inhibitor, was administered into the rat hippocampus. Seven days after drug administration the effects of phosphatase activity suppression in the brain to changes in neuronal cytoskeletal proteins were studied. Rat brain homogenates injected with cyclosporin A showed 16-38% suppression of Ca/calmodulin-dependent phosphatase activity measured by 32P released from 32P-labeled histone, indicating that cyclosporin A acts as an inhibitor of calcineurin after binding with cyclophilin in the brain. Hematoxylin-eosin staining revealed many basophilic neurons in the pyramidal layer of hippocampus, cerebellum, thalamus and cerebral cortex. Immunohistochemical study with anti-phosphorylated neurofilament 200kDa antibody showed positive staining of neuronal perikarya of these basophilic neurons. The number of immunopositive neurons with anti-phosphorylated neurofilament 200KDa increased with the concentration of cyclosporin A injected into the brain, indicating a dose-dependent effect of the compound. Staining with anti-dephosphorylated neurofilament 200KDa (SMI-32) was decreased in neuronal perikarya of cyclosporin A injected brains compared with that of control brains injected with dimethyl sulfoxide alone, suggesting an increased phosphorylation of neurofilament 200KDa subunit protein. The perikarya of these basophilic neurons were not stained with anti-PHF (paired helical filaments) or anti-tau antibodies. Immunostaining with anti-ubiquitin was not increased in these cells. Immunostaining with anti-calcineurin A and anti-calcineurin B showed positive staining of neurons in hippocampus, cerebellum and caudate nucleus both in experimental and control brains. Calcineurin B immunoreactivity was more intense in pyramidal cells in hippocampus injected with cyclosporin A than in controls. Western blot study with antibody against calcineurin A revealed significantly more degradation products of calcineurin A in cyclosporin A injected brains. The present data suggest that cyclosporin A inhibits calcineurin activity in the brain, which results in increased phosphorylation of perikaryal neurofilaments. Since abnormal phosphorylation is speculated in the pathological process of Alzheimer's disease, the results will help elucidate the participation of phosphatase in the pathology of cytoskeletal proteins in Alzheimer's disease.
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PMID:Phosphorylated neurofilament accumulation in neuronal perikarya by cyclosporin A injection in rat brain. 838 21


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