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)

The opening and closing of chloride (Cl-) channels in the apical membrane of epithelial cells is regulated by hormones, neurotransmitters and enterotoxins (intestine) acting through a variety of intracellular messengers, including cyclic nucleotides (cAMP, cGMP), calcium (Ca) and diacylglycerol (DAG). The chloride impermeability of epithelial membranes observed in cystic fibrosis (CF) patients does not result from a defect in the Cl- conducting properties of the channel or in channel recruitment but stems either from a defect in a key regulator of the channel, presumably a phosphoprotein, or from the hyperactivation of a channel closing mechanism, presumably a protein phosphatase or a down-regulating protein kinase (i.e. protein kinase C). In vitro phosphorylation of isolated intestinal brush border membranes has revealed the existence of a 25,000 molecular weight proteolipid (p25) acting as cosubstrate for both cGMP- and cAMP-dependent protein kinases and cross-reacting with antibodies directed against the cytoplasmic tail of the band 3 anion exchanger from erythrocytes. The putative role of p25 in Cl- channel regulation and its relationship to an unidentified GTP-binding protein recently implicated in Cl- channel activation is discussed on the basis of a regulatory model indicating potential sites of the CF defect at a molecular level.
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PMID:The molecular basis of chloride channel dysregulation in cystic fibrosis. 270 19

Requirements for the activation of Cl- conductance have been investigated in pig jejunal brush border vesicles. The stability of ATP as a substrate for protein kinase activity, the stability of the phosphoprotein product of protein kinase action, and the choice of buffer system used for vesicle preparation were studied as variables which affected the outcome of in vitro activation attempts. Arsenate was selected as the most effective agent in protecting ATP from hydrolysis by the phosphatase activity in this vesicle system. Brush border vesicle protein appeared to prevent the accumulation of phosphoprotein in a cAMP-dependent protein kinase reaction, and vesicle protein only had phosphate acceptor activity when KF was added as a presumptive inhibitor of phosphoprotein phosphatase. A Cl- conductance response to a potassium gradient and valinomycin was present in vesicles prepared in buffers containing tetramethylammonium. Cl- conductance activity was not increased in this system by the addition of ATP, dibutyryl cyclic AMP, and cyclic AMP-dependent protein kinase. There was no Cl conductance response to a potassium gradient in vesicles buffered with imidazolium-acetate. Incorporation of ATP, AsO4(3-), and F- into these nonconductive vesicles by homogenization, followed by addition of dibutyryl cAMP, produced substantial conductance activity. Maximal activation of Cl- conductance was obtained with vesicles prepared in imidazolium-acetate buffering, using precautions to stabilize ATP and phosphoprotein prior to conductance measurements.
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PMID:Activation of chloride conductance in pig jejunal brush border vesicles. 271 42

Studies were performed to determine if the Na+-H+ exchanger, solubilized from renal brush border membranes from the rabbit and assayed in reconstituted artificial proteoliposomes, could be regulated by cAMP-dependent protein kinase. Octyl glucoside solubilized renal apical membrane proteins from the rabbit kidney were phosphorylated by incubation with ATP and highly purified catalytic subunit of cAMP-dependent kinase. 22Na+ uptake was determined subsequently after reconstitution of the proteins into proteoliposomes. cAMP-dependent protein kinase resulted in sustained protein phosphorylation and a concentration-dependent decrease in the amiloride-sensitive component of pH gradient-stimulated sodium uptake. The inhibitory effect of cAMP-dependent protein kinase demonstrated an absolute requirement for ATP and was blocked by the specific protein inhibitor of this kinase. cAMP-dependent protein kinase also inhibited 22Na+ uptake in the absence of a pH gradient (pHin 6.0, pHout 6.0) and the inhibitory effect was blocked by the specific inhibitor of the kinase. Solubilized membrane proteins exhibited little endogenous protein kinase or protein phosphatase activity. These studies indicate that Na+-H+ exchange activity of proteoliposomes reconstituted with proteins from renal brush border membranes is inhibited by phosphorylation of selected proteins by cAMP-dependent protein kinase. These findings also indicate that the regulatory components of the Na+-H+ exchanger remain active during the process of solubilization and reconstitution of renal apical membrane proteins.
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PMID:Reconstitution of cAMP-dependent protein kinase regulated renal Na+-H+ exchanger. 283 85

1. Homogenates of the mucosa of the small intestine of the guinea pig were separated by fractional sedimentation into seven different fractions. The enzymic properties of some of these subcellular fractions were compared with those obtained from the mucosa of the small intestine of the rabbit and cat. 2. The enzymic properties of the low-speed sediment (15000g-min.) were investigated and it was shown that invertase and alkaline ribonuclease were predominantly located in this subcellular fraction, whereas alkaline phosphatase, aryl-amidase, acid phosphatase, acid ribonuclease and phosphoprotein phosphatase, though true constituents of this fraction, occurred to varying degrees in other subcellular structures also. 3. It was shown that the most probable source of the enzymic activities observed in the low-speed sediment was the brush border. Electron micrographs of the purified brush-border fraction indicated vesicles derived from the brush-border membrane. 4. A method is described for the fractionation of mucosal homogenates into a brush border-plus-nuclei fraction, a mitochondrial fraction, a microsomal fraction and a particle-free supernatant. The fractions were shown to be relatively pure, as indicated by the distribution of invertase, DNA, succinate dehydrogenase, glucose 6-phosphatase and 6-phosphogluconate dehydrogenase. 5. Most of the activity of four lysosomal enzymes present in the nuclei-free homogenate was sedimented at 375000g-min., suggesting the occurrence of lysosomal particles in mucosal homogenates. 6. Further fractionation of the microsomal membranes into three fractions is described. The enzymic composition of the membrane fractions is given and discussed in relation to their structure as seen in electron micrographs.
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PMID:Studies on the fractionation of mucosal homogenates from the small intestine. 428 74

We have previously demonstrated that the cAMP-dependent phosphorylation of two or more proteins (bands IX and V) in membrane vesicles isolated from the renal brush border from kidneys of dogs, was associated with decreased Na+-dependent Pi transport. In the present studies a specific dephosphorylation of band IX was demonstrated in brush border vesicles incubated in the absence of F- which had been used in previous studies to inhibit phosphoprotein phosphatase activity. Dephosphorylation of band IX was 80% complete after 5 min of incubation at which time inhibition of Pi transport in membrane vesicles which had been phosphorylated in the presence of cAMP could no longer be demonstrated. Dephosphorylation of band IX was no different in vesicles from kidneys originating from parathyroidectomized dogs prior to or following the administration of parathyroid hormone in vivo and normal dogs. We conclude that the cAMP-dependent phosphorylation of brush border membrane proteins may mediate a phosphaturic effect of the hormone. Parathyroid hormone-induced phosphaturia may be terminated through the action of a specific membrane phosphoprotein-phosphatase.
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PMID:Cyclic AMP-dependent protein phosphorylation and dephosphorylation alter phosphate transport in canine renal brush border vesicles. 629 7

To ascertain whether cAMP-dependent phosphorylation could be demonstrated in brush border membrane vesicles (BBMV) isolated from kidneys of mice with X-linked hypophosphatemic rickets (HYP/Y) and normal littermates (+/Y) and, if so, to determine whether the absence of dephosphorylation might underlie differences in Na+-dependent 32Pi transport in BBMV, we measured 1) 32Pi transport, 2) cAMP-dependent phosphorylation, and 3) dephosphorylation in BBMV from +/Y and HYP/Y mice. Na+ gradient-dependent 32Pi transport was decreased in BBMV from HYP/Y mice as reflected in a decreased apparent Vmax. cAMP-dependent phosphorylation of a 62,000 Mr protein was demonstrated in sodium dodecyl sulfate polyacrylamide gels of BBMV from +/Y and HYP/Y mice and was associated with decreased Na+-dependent 32Pi transport. Dephosphorylation of the 62,000 Mr band was demonstrable in both types of membranes. Thus, both cAMP-dependent protein kinase and phosphoprotein phosphatase activities were demonstrable in BBMV isolated from +/Y and HYP/Y mice. These results are consistent with the renal tubular defect in the HYP/Y mouse reflecting an intrinsic abnormality of Pi transport in the brush border membrane independent from mediation of the phosphaturic effect of parathyroid hormone.
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PMID:Pi transport, phosphorylation, and dephosphorylation in renal membranes from HYP/Y mice. 666 Feb 93

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

Although a number of growth and transcription factors are known to regulate renal growth and development, the signal transduction molecules necessary to mediate these developmental signals are relatively unknown. Therefore, the activity and mRNA and protein expression of the signal transduction molecule protein phosphatase 2A (PP2A) were examined during rat kidney development. Northern analysis of total kidney RNA or Western analysis of kidney protein homogenates from embryonic day 15 to 90-d-old adults demonstrated developmental regulation of the catalytic, major 55-kD B regulatory subunit and A structural subunit with the highest levels of expression in late embryonic and newborn kidneys. Similarly, okadaic acid-inhibitable phosphatase enzyme activity was highest in the embryonic and newborn kidney. To map cell-specific expression of PP2A in the developing kidney, in situ hybridization with a catalytic subunit digoxigenin-labeled cRNA was performed on embryonic day 20 and newborn kidneys. PP2A was found predominately in the nephrogenic cortex and particularly in the developing glomeruli and non-brush border tubules in the embryonic day 20 and newborn kidneys. Similarly, immunocytochemistry with a specific PP2A catalytic subunit polyclonal anti-peptide antibody demonstrated catalytic subunit protein particularly concentrated in the podocytes of glomeruli in the newborn kidney. In the adult kidney, PP2A protein was no longer detectable except in the nuclei of distal tubular cells. Therefore, the developmental regulation of PP2A activity and protein during kidney development and its mapping to the nephrogenic cortex, developing glomeruli, and tubules suggests a role for PP2A in the regulation of nephron growth and differentiation.
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PMID:Developmental expression of protein phosphatase 2A in the kidney. 1044 41

The eel intestinal epithelium responds to an acute hypertonic challenge by a biphasic increase of the rate of Cl(-) absorption (measured as short circuit current, Isc, and creating a negative transepithelial potential, V(te), at the basolateral side of the epithelium). While the first, transient phase is bumetanide-insensitive, the second, sustained phase is bumetanide-sensitive, reflecting activation of the apically located Na(+)-K(+)-2Cl(-) (NKCC) cotransporter, which correlates with the cellular RVI response. Here, we investigated the involvement of the cytoskeleton and of serine/threonine phosphorylation events in the osmotic stress-induced ion transport in the eel intestinal epithelium, focusing on the sustained RVI phase, as well as on the previously uncharacterized response to hypotonic stress. The study was carried out using confocal laser scanning microscopy, a quantitative F-actin assay, and transepithelial electrophysiological measurements (V(te) and Isc) in Ussing chambers. Hypertonic stress did not detectably alter either net F-actin content or F-actin organization. In contrast, a brief exposure to hypotonic stress decreased the total cellular F-actin content in eel intestinal epithelium by about 15%, detectable morphologically mainly as a decrease in the intensity of the apical brush border F-actin labeling.The bumetanide-sensitive response of V(te) and Isc to hypertonicity was potently inhibited by treatment with either cytochalasin, latrunculin A, colchicine, the protein kinase C (PKC) inhibitor chelerythrine, the myosin light chain kinase (MLCK) inhibitor ML-7, or the serine/threonine protein phosphatase inhibitor Calyculin A, but was unaffected by the PKA inhibitor H-89. The electrophysiological response of the epithelium to hypotonic stress was characterized by a sustained decrease of V(te) and Isc, which was smaller and recovered faster in the presence of either cytochalasin, latrunculin A, or colchicine. It is concluded that in eel intestinal epithelium, the changes in ion transport in response to both hyper- and hypotonic stress require the integrity of both F-actin and microtubules. In addition, the shrinkage-induced activation of NKCC appears to require the activity of both PKC and MLCK. It is suggested that NKCC regulation by hypertonic stress involves an interaction between the cytoskeleton and protein phosphorylation events.
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PMID:Roles of the cytoskeleton and of protein phosphorylation events in the osmotic stress response in eel intestinal epithelium. 1229 22

Mistargeting of the regulatory subunit of protein phosphatase 2A (PP2A), B56alpha is involved in the hyperphosphorylation and desensitization of the D1 dopamine receptor in renal proximal tubules of spontaneously hypertensive rats (SHRs). However, the renal expression of B56alpha before hypertension develops is not known. Therefore, we studied the expression of B56alpha and PP2A activity in the kidney during development in the SHR and its normotensive control, the Wistar-Kyoto (WKY) rat. PP2A B56alpha was expressed in proximal and distal tubules with no differences in the pattern of expression in WKY and SHRs at any age. In brush border membranes of renal proximal tubules, PP2A B56alpha protein was greatest in the immature rats and decreased with development. However, PP2A activity did not change with age. PP2A B56alpha protein and PP2A activity were similar in WKY and SHRs except at 2 weeks when both PP2A B56alpha protein and PP2A activity were higher in SHRs than in WKY rats. The PP2A catalytic subunit co-immunoprecipitated with the D1 receptor in renal proximal tubule cells. It is possible that the increased expression of PP2A B56alpha and increased basal PP2A activity in the young, especially in the SHRs, may serve as a compensatory mechanism in the increased phosphorylation and decreased renal D1 receptor function, including D1-receptor mediated stimulation in renal proximal tubules of SHRs.
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PMID:Protein phosphatase 2A B56alpha during development in the spontaneously hypertensive rat. 1513 2


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