EC:3.1.3.16 - FACTA Search

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)

Dystrophin is a protein product of the gene responsible for Duchenne and Becker muscular dystrophy. The protein is localized to the inner surface of sarcolemma and is associated with a group of membrane (glyco)proteins. Dystrophin links cytoskeletal actins via the dystrophin-associated protein complex to extracellular matrix protein, laminin. This structural organization implicates the role of dystrophin in stabilizing the sarcolemma of muscle fibers. Precisely how dystrophin functions is far from clear. The presence of an array of isoforms of the C-terminal region of dystrophin suggests that dystrophin may have functions other than structural. In agreement, many potential phosphorylation sites are found in the C-terminal region of dystrophin, and the C-terminal region of dystrophin is phosphorylated both in vitro and in vivo by many protein kinases, including MAP kinase, p34cdc2 kinase, CaM kinase, and casein kinase, and is dephosphorylated by calcineurin. The C-terminal domain of dystrophin is also a substrate for hierarchical phosphorylation by casein kinase-2 and GSK-3. These observations, in accordance with the finding that the cysteine-rich region binds to Ca2+, Zn2+, and calmodulin, suggest an active involvement of dystrophin in transducing signals across muscle sarcolemma. Phosphorylation-dephosphorylation of the C-terminal region of dystrophin may play a role in regulating dystrophin-protein interactions and (or) transducing signal from the extracellular matrix via the dystrophin molecule to the cytoskeleton.
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PMID:Phosphorylation of the carboxyl-terminal region of dystrophin. 896 Mar 49

Crude cytoplasmic extracts made from Xenopus eggs have proven to be uniquely useful in the studies of the mechanism of spindle microtubule assembly dynamics and chromosome movement during progression through the cell cycle. We examined microtubule dynamic instability in the Xenopus system using video-enhanced differential interference contrast microscopy (VE-DIC), which required high-speed centrifugation in order to clarify crude Xenopus extracts of refractile particles. Surprisingly, the resultant clarified, undiluted extracts exhibited virtually no microtubule catastrophe, even in the presence of high MPF (cyclin B/p34cdc2 kinase) activity and mitogen-activated protein (MAP) kinase activity, a down-stream kinase also implicated in regulating microtubule dynamics. Microtubule elongation occurred at plus ends, and interphase microtubules grew at 17-30 microns/min while metaphase [meiotic, myelin basic protein kinase activity which is diagnostic for cytostatic factor (CSF)-arrested] microtubules grew at about 10 microns/min. Plus-end shortening rates for both interphase and metaphase extracts were > 50 microns/min. Addition of okadaic acid, a protein phosphatase inhibitor known to activate MAP kinase activity and cause an increase in microtubule turnover in extracts made from sea urchin eggs, had no effect on microtubule catastrophe in either interphase or metaphase Xenopus extracts. In addition, the microtubules assembled in interphase extracts were less sensitive to dilution than those in metaphase. This study is the first to describe the dynamic instability of microtubules in Xenopus extracts without the addition of exogenous tubulins or other buffer contaminants.
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PMID:Microtubule assembly in clarified Xenopus egg extracts. 898 73

Results of this study document a biphasic activation of protein kinases of the MAP kinase cascade-MEK and MAP kinases-upon interleukin-1 stimulation in human HeLa cells. The specific activities of both MEK and MAP kinases were increased within 1 min, declined rapidly to control levels and increased again after 15 min of interleukin-1 stimulation. Inhibition by okadaic acid of serine/threonine specific phosphatases resulted in a marked increase in interleukin-1 stimulated MEK and MAP kinase activities. Elevation by interleukin-1 of the specific activities of MEK and MAP kinases correlated with suppression of serine/threonine phosphatases in the late phase of stimulation. The data indicate, that enhanced phosphorylation of cellular proteins by enzymes of the MAP kinase cascade might represent a fine balance between activated protein kinases and repressed phosphoprotein phosphatase 2A in interleukin-1 stimulated HeLa cells.
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PMID:Interleukin-1 induced signalling: biphasic activation of mitogen-activated protein kinase kinase and mitogen-activated protein kinases in HeLa cells. Involvement of phosphoprotein phosphatases. 901 Jun 81

Mitogen-activated protein kinase (MAP) is involved in many signal transduction pathways and is activated during meiotic maturation in various species. In this study, we used the rat oocyte to identify some of the control mechanisms involved in MAP kinase activation which is triggered at resumption of meiosis. We examined the respective contribution of this kinase and maturation promoting factor (MPF), or cdc2 kinase, in the regulation of microtubule behavior and in the reorganization of chromatin during meiotic maturation. We found that the resumption of meiotic division in rat oocytes coincided with the activation of MPF and was followed 3 h later by the activation of MAP kinase. The activation of the two kinases also occurred in oocytes undergoing maturation in the presence of the protein phosphatase inhibitor okadaic acid (OA). However, the activation of cdc2 kinase was only partial, whereas activation of MAP kinase was accelerated and began 1 h after the resumption of meiosis, i.e. 2 h earlier than in control oocytes. We also showed that protein synthesis was required to activate MAP kinase, but not cdc2 kinase. However, once MAP kinase was activated, ongoing protein synthesis was not necessary to maintain its activity. These results suggest that a negative regulation of MAP kinase slows down its activation at the resumption of meiosis, mediated through the level of phosphatase activity. Moreover, MAP kinase activation requires protein synthesis, even upon phosphatase inactivation by OA, suggesting also the existence of a positive control pathway. We observed that during the first meiotic M-phase, the spindle did not form immediately after cdc2 kinase activation, but that its formation coincided with the appearance of MAP kinase activity. However, earlier activation of MAP kinase by treatment with OA did not lead to premature spindle formation, but instead a large aster formed consisting of long microtubules radiating from the condensed chromatin. In OA-treated oocytes, spindles did not form and an interphase network of microtubule developed with time. Thus, MAP kinase is unable to substitute for MPF under these conditions, its activity alone being insufficient to maintain the progression through meiotic maturation.
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PMID:Protein phosphatases control MAP kinase activation and microtubule organization during rat oocyte maturation. 901 23

Mitogen-activated protein (MAP) kinase pathways include a three-kinase cascade terminating in a MAP kinase family member. The middle kinase in the cascade is a MAP/extracellular signal-regulated kinase (ERK) kinase or MEK family member and is highly specific for its MAP kinase target. The first kinase in the cascade, a MEK kinase (MEKK), is characterized by its ability to activate one or more MEK family members. A two-plasmid bacterial expression system was employed to express active forms of the following MEK and MAP kinase family members: ERK1, ERK2, alpha-SAPK, and p38 and their upstream activators, MEK1, -2, -3, and -4. In each kinase module, the upstream activator, a constitutively active mutant of MEK1 or MEKK1, was expressed from a low copy plasmid, while one or two downstream effector kinases were expressed from a high copy plasmid with different antibiotic resistance genes and origins of replication. Consistent with their high activity, ERK1 and ERK2 were doubly phosphorylated on Tyr and Thr, were recognized by an antibody specific to the doubly phosphorylated forms, and were inactivated by either phosphoprotein phosphatase 2A or phosphotyrosine phosphatase type 1. Likewise, activated p38 and alpha-stress-activated protein kinase could also be inactivated by either phosphatase, and alpha-stress-activated protein kinase was recognized by an antibody specific to the doubly phosphorylated forms. These three purified, active MAP kinases have specific activities in the range of 0.6-2.3 micromol/min/mg. Coexpression of protein kinases with their substrates in bacteria is of great value in the preparation of numerous phosphoproteins, heretofore not possible in procaryotic expression systems.
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PMID:Reconstitution of mitogen-activated protein kinase phosphorylation cascades in bacteria. Efficient synthesis of active protein kinases. 911 Sep 99

We have reported that inhibition of protein phosphatase 2A (PP2A) by expression of SV40 small t stimulates the mitogenic MAP kinase cascade. Here, we show that SV40 small t can substitute for tumor necrosis factor-alpha (TNF-alpha) or serum and stimulate atypical protein kinase C zeta (PKC zeta) activity, resulting in MEK activation, cell proliferation and NF-kappaB-dependent gene transcriptional activation in CV-1 and NIH 3T3 cells. These effects were abrogated by co-expression of kinase-deficient PKC zeta and inhibition of phosphatidylinositol 3-kinase p85alpha-p110 by wortmannin, LY294002 and a dominant-negative mutant of p85alpha. In contrast, expression of kinase-inactive ERK2 inhibited small t-dependent cell growth but was unable to abolish small t-induced NF-kappaB transactivation. Our results provide the first in vivo evidence for a critical regulatory role of PP2A in bifunctional PKC zeta signaling pathways controlled by phosphatidylinositol 3-kinase. Constitutive activation of PKC zeta and NF-kappaB following inhibition of PP2A supports new mechanisms by which SV40 small t promotes cell growth and transformation. By establishing PP2A as a key player in the response of cells to growth factors and stress signals like TNF-alpha, our findings could explain why PP2A is a primary target utilized during SV40 infection to alter cellular behavior.
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PMID:Protein phosphatase 2A is a critical regulator of protein kinase C zeta signaling targeted by SV40 small t to promote cell growth and NF-kappaB activation. 931 25

The Saccharomyces cerevisiae crv mutants (crv1, 2, 3 and 4) exhibit phenotypes, such as calcium resistance and vanadate sensitivity, which are apparently similar to those of calcineurin-deficient mutants. We have cloned and characterized the CRV4 gene that complements all the phenotypes of the crv4 mutant. DNA sequencing revealed that CRV4 is identical to the previously cloned gene TTP1, which encodes a type II membrane protein of unknown function. Deletion of CRV4/TTP1 causes no obvious phenotype except for Ca2+ resistance and vanadate sensitivity, but is synthetically lethal in combination with a deletion of MPK1, in a manner which is suppressible by the addition of an osmotic stabilizer. In medium containing sorbitol as an osmotic stabilizer, the enb1 mpk1 ttp1 triple mutant exhibits a more severe growth defect than does any of the double mutants enb1 ttp1, enb1 mpk1 or mpk1 ttp1. A high Ca2+ concentration (50 mM) or a constitutively active form of calcineurin partially suppresses the growth defect of the mpk1 ttp1 double mutant. These results indicate that Ttp1 participates in a cellular event essential for growth and morphogenesis, in parallel with the pathways involving Mpk1 MAP kinase and calcineurin.
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PMID:Yeast Crv4/Ttp1, a predicted type II membrane protein, is involved in an event important for growth, functionally overlapping with the event regulated by calcineurin- and Mpk1-mediated pathways. 941 31

Mitogen-activated protein kinase kinases (MKKs or MEKs) are dual specificity tyrosine/threonine protein kinases that are activated by phosphorylation at two closely spaced serine residues (serines-218 and -222) by the c-mos and raf proto-oncogenes. This double phosphorylation is both necessary and sufficient for MEKs to activate the MAP kinase enzymes in vitro. The specificity or regulation of in vivo signaling to the mammalian MEKs (MEK1 and MEK2) was recently reported also to involve the differential phosphorylation of a proline-rich peptide located between the MEK kinase-subdomains IX and X. Here we report the purification and characterization of an auto-activating protein kinase from bovine brain that phosphorylates serine-298 of the MEK1 and MEK2 proline-rich insert peptides. The auto-activation of the MEK-S298 peptide kinase is the result of an intermolecular phosphorylation event that can be prevented by the peptide substrates. The inactive kinase migrates on gel filtration as a 90 kDa protein, and after activation as a 43 kDa phosphoprotein. Incorporation of 32P[phosphate] into 40-42 kDa proteins on SDS-PAGE parallels the activation of the enzyme, and dephosphorylation by protein phosphatase 2Ac reverses the activation. SDS-PAGE renaturation assays show that the 40 kDa protein has the capacity to autophosphorylate, and exhibits kinase activity towards myelin basic protein after activation. Phosphorylation of purified bovine brain MEK or recombinant MEK1 by the auto-activated kinase does not activate the enzyme, and does not interfere with the in vitro raf-mediated MEK activation. We conclude that still unknown kinases may control the MAP kinase pathway by targeting MEK.
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PMID:Identification and characterization of an auto-activating MEK kinase from bovine brain: phosphorylation of serine-298 in the proline-rich domain of the mammalian MEKs. 941 3

Calcineurin is a highly conserved and ubiquitously expressed Ca2+- and calmodulin-dependent protein phosphatase. The in vivo role of calcineurin, however, is not fully understood. Here, we show that disruption of the calcineurin gene (ppb1(+)) in fission yeast results in a drastic chloride ion (Cl-)-sensitive growth defect and that a high copy number of a novel gene pmp1(+) suppresses this defect. pmp1(+) encodes a phosphatase, most closely related to mitogen-activated protein (MAP) kinase phosphatases of the CL100/MKP-1 family. Pmp1 and calcineurin share an essential function in Cl- homeostasis, cytokinesis and cell viability. Pmp1 phosphatase dephosphorylates Pmk1, the third MAP kinase in fission yeast, in vitro and in vivo, and is bound to Pmk1 in vivo, strongly suggesting that Pmp1 negatively regulates Pmk1 MAP kinase by direct dephosphorylation. Consistently, the deletion of pmk1(+) suppresses the Cl--sensitive growth defect of ppb1 null. Thus, calcineurin and the Pmk1 MAP kinase pathway may play antagonistic functional roles in the Cl- homeostasis.
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PMID:pmp1+, a suppressor of calcineurin deficiency, encodes a novel MAP kinase phosphatase in fission yeast. 942 48

The MAP kinase (MAPK) JNK but not ERK is synergistically activated during costimulation of T cells. We examined how protein tyrosine kinases (PTKs) and GTPases differentially regulate JNK and ERK in T cells. While PTKs are not selective, small GTPases display distinct MAPK-activating functions. Whereas Ras activates ERK, Rac activates JNK. Rac cooperates with a Syk-generated signal to enhance JNK activation and appears to be at a nodal point for pathways emanating from CD28, calcineurin, and protein kinase C. AP-1- and NF-AT-dependent reporters are stimulated by Rac and Syk and are dependent on JNK. Unlike Syk, the PTK Lck activates JNK but does not cooperate with Rac, resulting in weak AP-1 and NF-AT activation. Therefore, signals generated by PTKs are functionally distinct and need to be integrated to induce transcriptional responses.
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PMID:Cooperation between Syk and Rac1 leads to synergistic JNK activation in T lymphocytes. 946 9

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