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)

Intact spermatozoa from goat cauda epididymides possess an ecto-(cyclic AMP-independent protein kinase) activity that causes transfer of the terminal phosphate of exogenously added [gamma-32P]ATP to the serine and threonine residues of several endogenous plasma-membrane phosphoproteins located on the external cell surface. Cyclic AMP, cyclic GMP, calmodulin and muscle cyclic AMP-dependent protein kinases I and II had no appreciable effect on the rate of phosphorylation of ecto-proteins by the intact cells. The ecto-enzyme is not derived from the catalytic subunit of a cyclic AMP-dependent kinase. Sperm ecto-kinase activity is not due to contamination of broken cells or any possible cell damage during incubation and isolation of spermatozoa. The phosphorylation reaction was linear for approx. 1 min and there was no detectable uptake of ATP by these cells. The activity of the ecto-kinase was strongly inhibited by proteinases and by the membrane-nonpenetrating surface probes. The products of the reaction were associated with the intact cells and the 32P of the labelled cells was largely lost when treated with Triton X-100 or proteinases: trypsin and pronase. These data are consistent with the view that the observed protein kinase and the phosphoproteins are located on the external surface of spermatozoa. Vigorously forward-motile whole spermatozoa showed a relatively high capacity to phosphorylate ecto-proteins that undergo rapid turnover. The results suggest the occurrence of a novel coupled-enzyme system (ecto-protein kinase and phosphoprotein phosphatase) on the sperm external surface that may modulate sperm physiology by determining the phosphorylated states of the ecto-proteins.
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PMID:Phosphorylation of external cell-surface proteins by an endogenous ecto-protein kinase of goat epididymal intact spermatozoa. 352 94

Interactions of several divalent cations (Mn2+, Ca2+, Co2+, Sr2+, and Zn2+) with EGTA-inhibitable adenylate cyclase were investigated in washed membranes (particles) isolated from the gray matter of rat cerebral cortex. The EGTA-inhibitable (called sensitive) enzyme activity was assayed in the presence of Triton X-100 since this detergent caused a marked increase (up to 20-fold) in the enzyme activity. The effects of various divalent metals (all added as chloride salt) indicated the presence of two distinct sites called site I and site II. At low concentrations (less than micromolar) Mn2+, Co2+, and Ca2+ increased (up to 10-fold) the enzyme activity to the same extent and appeared to act via binding to site I (high affinity site). The rank order of affinity was Mn2+ greater than or equal to Co2+ greater than Ca2+. Zn2+ showed the highest affinity and Sr2+ the lowest towards binding to site I; both these metals increased the enzyme activity to lesser extents than Mn2+, Co2+, or Ca2+. GTP was not required for the stimulation of this enzyme by low concentrations of Ca2+. The interaction of Mn2+ with site II (low affinity site) caused further increase in the enzyme activity, whereas Co2+, Ca2+, and Sr2+ were inhibitory at concentrations greater than 10 microM. Isolated fraction contained loosely and tightly associated pools of calmodulin. Myelin basic protein, but not calcineurin, inhibited the EGTA-sensitive adenylate cyclase activity. The EGTA-insensitive enzyme activity was increased by norepinephrine by mechanisms that depended on GTP and was inhibited by Ca2+. The stimulation of the EGTA-insensitive enzyme modulated the Mg2+ requirement such that Mg2+ binding to the low affinity site (site II) apparently occurred with higher affinity. The likely significance of these results is discussed with regard to (i) the presence of two classes of adenylate cyclase in rat cerebral cortex gray matter and (ii) the regulation of their activities by calmodulin-requiring and GTP-requiring mechanisms.
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PMID:EGTA-sensitive and -insensitive forms of particulate adenylate cyclase in rat cerebral cortex: regulation by divalent cations and GTP. 393 3

A radiochemical assay was developed for measuring branched-chain alpha-ketoacid dehydrogenase activity of Triton X-100 extracts of freeze-clamped rat liver. The proportion of active (dephosphorylated) enzyme was determined by measuring enzyme activities before and after activation of the complex with a broad-specificity phosphoprotein phosphatase. Hepatic branched-chain alpha-ketoacid dehydrogenase activity in normal male Wistar rats was 97% active but decreased to 33% active after 2 days on low-protein (8%) diet and to 13% active after 4 days on the same diet. Restricting protein intake of lean and obese female Zucker rats also caused inactivation of hepatic branched-chain alpha-ketoacid dehydrogenase complex. Essentially all of the enzyme was in the active state in rats maintained for 14 days on either 30 or 50% protein diets. This was also the case for rats maintained on a commercial chow diet (minimum 23% protein). However, maintaining rats on 20, 8, and 0% protein diets decreased the percentage of the active form of the enzyme to 58, 10, and 7% of the total, respectively. Fasting of chow-fed rats for 48 h had no effect on the activity state of hepatic branched-chain alpha-ketoacid dehydrogenase, i.e., 93% of the enzyme remained in the active state compared to 97% for chow-fed rats. However, hepatic enzyme of rats maintained on 8% protein diet was 10% active before starvation and 83% active after 2 days of starvation. Thus, dietary protein deficiency results in inactivation of hepatic branched-chain alpha-ketoacid dehydrogenase complex, presumably as a consequence of low hepatic levels of branched-chain alpha-ketoacids, established inhibitors of branched-chain alpha-ketoacid dehydrogenase kinase. With rats fed a low-protein diet and subsequently starved, inhibition of branched-chain alpha-ketoacid dehydrogenase kinase by branched-chain alpha-ketoacids generated as a consequence of endogenous proteolysis most likely promotes the greater branched-chain alpha-ketoacid dehydrogenase activity state.
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PMID:Physiological covalent regulation of rat liver branched-chain alpha-ketoacid dehydrogenase. 408

Bovine thyroid tissue exhibited cAMP-dependent and Ca2+-dependent protein kinase activities as well as a basal (cAMP- and Ca2+-independent) one, and phosphoprotein phosphatase activity. Although the former two protein kinase activities were not clearly demonstrated using endogenous protein as substrate, they were clearly shown in soluble, particulate and plasma membrane fractions using exogenous histones as substrate. The highest specific activities were in the plasma membrane. The apparent Km values of cAMP and Ca2+ for the membrane-bound protein kinase were 5 . 10(-8) M and 8.3 . 10(-4) M in the presence of 1 Mm EGTA), respectively. The apparent Km values of Mg2+ were 7.10-4M (without (in the cAMP and Ca2+), 5 . 10(-4) M (with cAMP) and 1.3 . 10(-3) M (with Ca2+), and those of ATP were 3.5 . 10(-5)M (with or without cAMP) and 8.5 . 10(-5) M (with Ca2+). The Ca2+-dependent protein kinase could be dissociated from the membrane by EGTA-washing. The enzyme activity so released was further activated by added phospholipid (phosphatidylserine/1,3-diolein), but not by calmodulin. Phosphoprotein phosphatase activity was also clearly demonstrated in all of the fractions using 32P-labeled mixed histones as substrate. The activity was not modified by either cAMP or Ca2+, but was stimulated by a rather broad range (5-25 mM) of Mg2+ and Mn2+. NaCl and substrate concentrations also influenced the activity. Pyrophosphate, ATP, inorganic phosphate and NaF inhibited the activity in a dose-dependent manner. Trifluoperazine, chlorpromazine, dibucaine and Triton X-100 (above 0.05%, w/v) specifically inhibited the Ca2+-dependent protein kinase in plasma membranes. Repetitive phosphorylation of intrinsic and extrinsic proteins by the membrane-bound enzyme activities clearly showed an important co-ordination of them at the step of protein phosphorylation. These findings suggest that these enzyme activities in plasma membranes may contribute to regulation of thyroid function in response to external stimuli.
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PMID:Properties of enzyme activities involved in protein phosphorylation-dephosphorylation of thyroid plasma membranes. 629 23

The beta-subunit of the insulin receptor from the muscle of the shrimp Penaeus japonicus exists as multiple subtypes with M(r) of 79,000, 77,000 and 75,000. Only the subunit of M(r) 79,000 is autophosphorylated after the addition of insulin. The autophosphorylation occurred specifically at Tyr residues, as demonstrated by the specific subsequent dephosphorylation by the phosphotyrosyl protein phosphatase from the human placenta. The detergent, Triton X-100, and the metal ion, Mn2+, caused a noticeable enhancement of the autophosphorylation of shrimp insulin receptors from the muscle. Okadaic acid activated the kinase activity of the insulin-stimulated insulin receptor, but not the basal activity of the insulin receptor without the addition of insulin. Further studies comparing the insulin binding of the shrimp insulin receptor in the regulation of kinase activity of the multiple beta-subunit subtypes from the shrimp muscle are under way.
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PMID:Characterization of insulin receptor from the muscle of the shrimp Penaeus japonicus (Crustacea: Decapoda). 788 1

The association/dissociation of ezrin, a microvillar membrane-cytoskeleton linker, was studied to search for the initial step leading to anoxia-induced brush-border breakdown in a rabbit proximal tubule suspension. Electron microscopy studies display time-dependent damage to the microvilli during anoxia; immunoblots demonstrate the dissociation of ezrin from the cytoskeleton, reflected by the significant decrease in Triton X-100-insoluble ezrin from control (91%) to 39% after 30 min. Simultaneously, Triton X-100-soluble and extracellular ezrin increased with no change in total ezrin, Triton X-100 solubility of actin, or total intracellular protein. Parallel immunocytochemistry studies show diffusion of ezrin from the brush border, where ezrin is highly colocalized with F-actin during normoxia into the cytoplasm. Thirty minutes of reoxygenation following 30 min of anoxia causes recovery of the microvillar structure and reassociation of ezrin to the cytoskeleton and the brush border. Application of ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (4 mM) or inhibition of intracellular calpain or calcineurin do not prevent the dissociation of ezrin during anoxia. We conclude that ezrin-cytoskeletal dissociation may initiate microvillar breakdown during anoxia via calcium-independent mechanisms.
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PMID:Cytoskeletal dissociation of ezrin during renal anoxia: role in microvillar injury. 794 7

Treatment of rat dorsal root ganglion cultures with 1 microM okadaic acid leads to a fragmentation of neurofilaments and a reduction in the electrophoretic mobilities of the three subunits on SDS-polyacrylamide gels (Sacher, M. G., Athlan, E. S., and Mushynski, W. E. (1992) Biochem. Biophys. Res. Commun. 186, 524-530). Based on the observed response to varying concentrations of okadaic acid, fragmentation was inferred to be due to inhibition of protein phosphatase-2A activity and reduction in electrophoretic mobility to inhibition of protein phosphatase-1. Okadaic acid treatment led to an increase in amino-terminal, relative to carboxyl-terminal, domain phosphorylation in the low molecular weight (NF-L) subunit in the Triton X-100-soluble and -insoluble fractions. The purified catalytic subunit of protein phosphatase-2A dephosphorylated 32P-labeled NF-L and the middle molecular weight subunit from okadaic acid-treated cultures, whereas the catalytic subunit of protein phosphatase-1 had no effect. In the case of NF-L, phosphate moieties were preferentially removed from the amino-terminal domain. These results show that the amino-terminal domain of NF-L can be phosphorylated in situ and implicate protein phosphatase-2A in the turnover of phosphate moieties in this domain.
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PMID:Increased phosphorylation of the amino-terminal domain of the low molecular weight neurofilament subunit in okadaic acid-treated neurons. 803 96

The activities and concentrations of protein phosphatase type 1 (PP1) and type 2A (PP2A) were compared in cytosol and particulate fractions of rat forebrain. Although the activity of PP2A was highest in the cytosol, immunoblot analysis with a PP2A-specific antibody showed that there were significant levels of the enzyme in the particulate fraction. There was no significant difference between the concentration of PP2A in the cytosol and particulate fractions such that the low activity of PP2A in the particulate fraction represents an inactivation of this form of the enzyme. Similar analysis in skeletal muscle, heart, and liver showed this finding was unique to the brain. Similarly, the majority of PP1 activity was recovered in the cytosol, but most PP1 enzyme was associated with the particulate fraction. Comparison with other tissues showed that the activities of PP1 in the particulate fractions were similar but that the forebrain contained significantly more enzyme than the other tissues. Thus, like PP2A it appears that the specific activity of PP1 in the particulate fraction of rat forebrain is much lower than that of the cytosol and of the particulate fractions of other tissues. Elution of PP1 and PP2A from membranes with 0.5 M NaCl plus 0.3% Triton X-100 resulted in severalfold activation of both enzymes. That the majority of PP1 and PP2A in rat forebrain are associated with membrane structures but in a low activity state suggests that novel regulatory mechanisms exist that have considerable and unique potential for activation of protein dephosphorylation.
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PMID:Differential activities of protein phosphatase types 1 and 2A in cytosolic and particulate fractions from rat forebrain. 813 83

Mg-ATP-dependent protein phosphatase activating factor [kinase FA/glycogen synthase kinase 3 (GSK-3)] has been identified in highly purified clathrin-coated vesicles (CCVs) isolated from pig brain. Kinase FA was found to exist in an inactive state but can be activated by 1% Triton X-100 or 1 M Tris-HCl extraction in brain CCVs. Activation of kinase FA in CCVs is due to disassociation of the kinase from CCVs as demonstrated on sucrose density-gradient ultracentrifugation and Sepharose CL-4B gel filtration. Using purified brain CCVs as substrates, kinase FA enhanced the endogenous phosphorylation of assembly protein complexes in the molecular weight range of 100,000-130,000 severalfold, as demonstrated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by autoradiography. Comparisons with well-defined brain CCV-associated endogenous protein kinases such as pp50 kinase/AP50 and casein kinase 2 provide evidence that kinase FA/GSK-3 represents a third potent and unique CCV-associated protein kinase distinctly different from the previously described CCV protein kinases, suggesting the possible involvement of kinase FA in the regulation of CCV functions in the brain. The results also support the notion that protein kinase FA is involved in cell surface signal transduction in the CNS.
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PMID:Identification and characterization of protein kinase FA/glycogen synthase kinase 3 in clathrin-coated brain vesicles. 838 21

Ceramide is emerging as a potential physiologic regulator of growth and differentiation in mammalian cells. This regulation may be mediated through the action of a serine/threonine ceramide-activated protein phosphatase (CAPP). In this study, the existence of a ceramide-mediated pathway of cell regulation in Saccharomyces cerevisiae was investigated. Incubating exponentially growing S. cerevisiae cells with 1-20 microM cell-permeable ceramide (C2-ceramide) produced a dose-dependent inhibition of proliferation. A number of other lipids and detergents, such as arachidonate, oleate, Triton X-100, dioctanoylglycerol, and phenylaminoalcohol ceramide analogs, were largely ineffective, demonstrating the specificity of the response. Stereospecificity was demonstrated, in that the D enantiomer of erythro-C2-ceramide was more potent than the L enantiomer. More dramatically, a highly specific structural requirement for C2-ceramide was demonstrated, in that 1-12 microM C2-dihydroceramide was completely ineffective at inhibiting growth. Since C2-dihydroceramide lacks the 4-5 trans double bond present in C2-ceramide, this suggests that the antiproliferative properties of C2-ceramide depend upon the presence of the double bond. This raises an interesting possibility; the dehydrogenase responsible for introduction of the double bond during endogenous ceramide synthesis may regulate cell growth by controlling the cellular concentrations of dihydroceramide and ceramide. The oxygenase responsible for introduction of the final hydroxyl group in phytoceramide could provide a similar regulatory function in yeast. The potential role of CAPP in ceramide action in yeast was investigated next. Crude extracts of S. cerevisiae also contained a ceramide-dependent serine/threonine phosphatase activity, which was sensitive to inhibition by okadaic acid. This enzyme exhibited stereospecificity and structural requirements identical to that of the ceramide-induced growth inhibition. We conclude that both the growth-inhibitory response to ceramide and CAPP activity are conserved in S. cerevisiae. The identical stereochemical and structural requirements in both the biological and phosphatase assays suggest that the anti-proliferative effects of ceramide in yeast may be mediated in part through the action of CAPP.
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PMID:Ceramide-mediated growth inhibition and CAPP are conserved in Saccharomyces cerevisiae. 838 86


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