EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of the beta-adrenergic agonist isoproterenol (Iso) on cells of the inner stripe portion of the rabbit outer medullary collecting duct (OMCDi) grown in primary culture were examined using whole cell patch-clamp techniques and measurements of intracellular pH (pHi) and Ca2+. Iso (10(-6) M) increased the cellular Cl- conductance, and this effect was mimicked by treatment of the cells with dibutyryladenosine 3',5'-cyclic monophosphate (cAMP, 10(-5) M) or protein kinase A (PKA, 0.4 U/ml). Iso did not alter the baseline pHi, but it did increase the activity of both the Cl-/HCO3- antiporter and the H(+)-adenosinetriphosphatase (H(+)-ATPase). The increase in Cl-/HCO3- antiporter rate was mimicked by dibutyryl-cAMP plus 3-isobutyl-1-methylxanthine (cAMP + IBMX, 10(-4) M + 10(-5) M). However, the Iso-induced stimulation of the H(+)-ATPase activity was not mimicked by cAMP + IBMX. Measurements of intracellular Ca2+ showed that Iso also increased intracellular Ca2+ levels. This response was not dependent on extracellular Ca2+, nor did cAMP + IBMX appreciably alter intracellular Ca2+. Consequently, we postulate that beta-adrenergic agonists are potential stimulators of OMCDi H+ secretion. These agonists stimulate cellular HCO3- efflux through a signal transduction pathway involving cAMP and PKA. However, a different signal transduction pathway appears to mediate the stimulation of cellular H+ efflux. This second pathway may involve an elevation of intracellular Ca2+.
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PMID:Beta-adrenergic regulation of H+ secretion by cultured outer medullary collecting duct cells. 128 81

The basic cellular mechanisms involved in the regulation of (Na + K)-ATPase are discussed. Various ligands seem to be responsible for the short-term modulation of this enzyme activity (intracellular messengers). Cytosolic Ca2+ has a key role in mediating changes induced by hormones or receptor agonist; but, in turn, intracellular Ca(2+)-dependent proteins like calmodulin, calnaktin or others, are also needed for these changes. Phosphorylation of effector proteins, following the activation of PKC, PKA or CaM-kinase II, may result in changes of (Na + K)-ATPase activity either by a direct effect on the catalytic subunit or by modulating the Na(+)-H+ exchanger thereby resulting in an effect on intracellular sodium, whose concentration is known to be rate-limiting for the enzyme activity. Despite the ubiquity of (Na + K)-ATPase in various organs and tissues, its response to modulators partly depends on the heterogeneity of the alpha-subunit that give rise to the existence of different isoforms. The relative abundance of alpha 1, alpha 2, alpha 3 or other isoforms is tissue-specific and represents another way of regulation among different cell types. While these cellular mechanisms occur in various cell types the kidney shows an opposite response respect to other tissues such as liver or brain. The functional relevance of the mechanisms of acute adaptation of (Na + K)-ATPase, discussed in this review, is becoming increasingly recognized for the renal enzyme, what may contribute to stimulate new approaches to the study of the short-term regulation of the pump activity in molecular terms.
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PMID:Is the renal (Na + K)-ATPase modulated by intracellular messengers? 133 18

Dopamine decreases tubular sodium reabsorption, attributed in part to Na-K-ATPase inhibition in the proximal convoluted tubule (PCT). Because the final regulation of sodium excretion occurs in the collecting duct, where specific dopamine DA1 binding sites have been demonstrated, we examined the effects of dopamine, as well as of DA1 and DA2 receptor agonists on Na-K-ATPase activity and on the number of units in Madin-Darby canine kidney (MDCK) cells, which retain differentiated properties of the renal cortical collecting tubule epithelium. Dopamine (10(-5) M) inhibited pump activity (by 50%) and reduced the number of units. This effect was reproduced by the DA1 agonist SKF 38393, which inhibited pump activity in a dose- and time-dependent manner (maximum, 10(-5) M). The DA2 agonist quinpirole hydrochloride was without effect, either alone or in combination with SKF 38393. Inhibition of pump activity by dopamine was totally abolished by H7 (100 microM), an inhibitor of protein kinase (PK), but partially by 2',5'-dideoxy-adenosine (DDA) and H4, respective inhibitors of cAMP production and PKA, which suggests that the dopamine effect on Na-K-ATPase activity may be linked to activation of both PKC and PKA. In these cells, amiloride addition during preincubation did not alter the effect of dopamine on Na-K-ATPase activity; in contrast, furosemide increased further the inhibitory effect of dopamine on the enzyme activity. Monensin addition (10(-3) M) reversed the inhibitory effect of dopamine after a 30-min preincubation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanisms of dopamine effects on Na-K-ATPase activity in Madin-Darby canine kidney (MDCK) epithelial cells. 754 25

We have used NMR spectroscopy to monitor the phosphorylation of a peptide corresponding to the N-terminal region of human cardiac troponin-I (residues 17-30), encompassing the two adjacent serine residues of the dual phosphorylation site. An ordered incorporation of phosphate catalysed by PKA was observed, with phosphorylation of Ser-24 preceding that of Ser-23. Diphosphorylation induced a conformational transition in this region, involving the specific association of the Arg-22 and Ser-24P side-chains, and maximally stabilised when both phosphoserines were in the di-anionic form. The results suggest that the second phosphorylation at Ser-23 of cardiac troponin-I is of particular significance in the mechanism by which adrenaline regulates the calcium sensitivity of the myofibrillar actomyosin Mg-ATPase.
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PMID:Sequential phosphorylation of adjacent serine residues on the N-terminal region of cardiac troponin-I: structure-activity implications of ordered phosphorylation. 765 71

Na,K-ATPase is a potential target for regulatory phosphorylation by protein kinase A and C (PKA and PKC). To identify the phosphorylation sites, we have mutated the alpha 1-subunit of Bufo marinus in a highly conservative PKA and in 20 different PKC consensus sequences. The mutants were expressed in Xenopus oocytes and their phosphorylation capacity tested in homogenates upon stimulation of PKA or PKC. While serine 943 (Ser-943) was identified as a unique target site for PKA, none of the PKC consensus serine or threonine residues are implicated in PKC phosphorylation. Controlled trypsinolysis of phosphorylated alpha-subunits of various purified enzyme preparations and of alpha/beta complexes from oocyte homogenates revealed that PKC phosphorylation was exclusively associated with the N terminus. A fusion protein containing the first 32 amino acids of the Bufo alpha-subunit was phosphorylated in vitro and serine and threonine residues (Thr-15 and Ser-16) in this region were identified by site-directed mutagenesis as the PKC phosphorylation sites. Finally, the Bufo alpha-subunit was phosphorylated by protein kinases in transfected COS-7 cells. In intact cells, PKA stimulation induced phosphorylation exclusively on Ser-943 and PKC stimulation mainly on Thr-15 and Ser-16, which are contained in a novel PKC phosphorylation motif.
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PMID:Phosphorylation of the Na,K-ATPase alpha-subunit by protein kinase A and C in vitro and in intact cells. Identification of a novel motif for PKC-mediated phosphorylation. 792 6

The phosphorylation state of the Na,K-ATPase alpha subunit has been examined in 32P-labeled sciatic nerves of control and streptozotocin-treated diabetic rats. Intact nerves were challenged with protein kinase (PK) modulators and alpha-subunit 32P labeling was analyzed after immunoprecipitation. In control nerves, the PKC activator phorbol 12-myristate 13-acetate (PMA) had little effect on alpha-subunit 32P labeling. In contrast, staurosporine, a PKC inhibitor, and extracellular calcium omission decreased it. In Ca(2+)-free conditions, PMA restored the labeling to basal levels. The cAMP-raising agent forskolin reduced the 32P labeling of the alpha subunit. The results suggest that nerve Na,K-ATPase is tonically phosphorylated by PKC in a Ca(2+)-dependent manner and that PKA modulates the phosphorylation process. In nerves of diabetic rats, PMA increased 32P labeling of the alpha subunit. In contrast to staurosporine or extracellular calcium omission, the decreased state of phosphorylation seen with forskolin was no longer significant in diabetic nerves. No change in the level of alpha-subunit isoforms (alpha 1 or alpha 2) was detected by Western blot analysis in such nerves. In conclusion, the altered effect of PK activators on Na,K-ATPase phosphorylation state is consistent with the view that a defect in PKC activation exists in diabetic nerves.
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PMID:In vivo phosphorylation of the Na,K-ATPase alpha subunit in sciatic nerves of control and diabetic rats: effects of protein kinase modulators. 801 40

Ca,phospholipid-dependent (PKC) and cAMP-dependent (PKA) protein kinases phosphorylate the alpha-subunit of the Na,K-ATPase from duck salt gland with the incorporation of 0.3 and 0.5 mol 32P/mol of alpha-subunit, respectively. PKA (in contrast to PKC) phosphorylates the alpha-subunit only in the presence of detergents. Limited tryptic digestion of the Na,K-ATPase phosphorylated by PKC demonstrates that 32P is incorporated into the N-terminal 41-kDa fragment of the alpha-subunit. Selective chymotrypsin cleavage of phosphorylated enzyme yields a 35-kDa radioactive fragment derived from the central region of the alpha-subunit molecule. These findings suggest that PKC phosphorylates the alpha-subunit of the Na,K-ATPase within the region restricted by C3 and T1 cleavage sites.
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PMID:Phosphorylation of the Na,K-ATPase by Ca,phospholipid-dependent and cAMP-dependent protein kinases. Mapping of the region phosphorylated by Ca,phospholipid-dependent protein kinase. 838 77

Characterization of two mitochondrial proteins of M(r) 42 and 18 kDa, respectively, phosphorylated by the cAMP-dependent protein kinase of bovine heart mitochondria (mtPKA), is presented. A 42 kDa protein is found to be loosely associated to complexes I, III and IV of the respiratory chain and complex V (ATP synthase) in the inner mitochondrial membrane. An 18 kDa protein is associated to complex I in the inner membrane and in a purified preparation of this complex where it can be phosphorylated by the isolated catalytic subunit of PKA.
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PMID:Characterization of proteins phosphorylated by the cAMP-dependent protein kinase of bovine heart mitochondria. 854 78

Reconstituted Na+,K+-ATPase from either pig kidney or shark rectal glands was phosphorylated by cAMP dependent protein kinase, PKA. The stoichiometry was approximately 0.9 mol P(i)/mol alpha-subunit in the pig kidney enzyme and approximately 0.2 mol P(i)/mol alpha-subunit in the shark enzyme. In shark, Na+,K+-ATPase PKA phosphorylation increased the maximum hydrolytic activity for cytoplasmic Na+ activation and extracellular K+ activation without affecting the apparent K(m) values. In contrast, no significant functional effect after PKA phosphorylation was observed in pig kidney Na+,K+-ATPase.
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PMID:Functional regulation of reconstituted Na,K-ATPase by protein kinase A phosphorylation. 860 40

The yeast PMR2/ENA1 gene encodes an ATPase involved in sodium extrusion and induced by NaCl. At low salt concentrations (0.3 M) induction is mediated by the HOG-MAP kinase pathway, a system activated by non-specific osmotic stress. At high salt concentrations (0.8 M) induction is mediated by the protein phosphatase calcineurin and is specific for sodium. Protein kinase A and Sis2p/Hal3p modulate PMR2/ENA1 expression as negative and positive factors, respectively but Sis2p/Hal3p does not participate in the transduction of the salt signal. Salt stress decreases the level of cAMP and the resulting decrease in protein kinase A activity may contribute to HOG-mediated induction.
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PMID:Multiple transduction pathways regulate the sodium-extrusion gene PMR2/ENA1 during salt stress in yeast. 861 70

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