EC:3.1.4.3 - FACTA Search

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Query: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have isolated a full-length cDNA for human carbonic anhydrase IV (CA IV) from a lambda gt10 human kidney cDNA library. The 1105-base-pair (bp) cDNA contains a 47-bp 5' untranslated region, a 936-bp open reading frame, and a 122-bp 3' untranslated region. The deduced amino acid sequence is colinear with the N-terminal sequence and the sequence of several tryptic peptides of human lung CA IV. It includes an 18-amino acid signal sequence, a 260-amino acid region that shows 30-36% similarity with the 29-kDa cytoplasmic CAs (CA I, CA II, and CA III), and an additional 27-amino acid C-terminal sequence that ends in a 21-amino acid hydrophobic domain. Of the 17 "active site" residues that are highly conserved in other human CAs, 16 are also present in CA IV. Expression of the cDNA in COS cells produced a 35-kDa enzyme that was membrane associated, resistant to inactivation by SDS, contained no carbohydrate, and reacted on Western blots with antiserum to the 35-kDa CA IV from human lung. Treatment of membranes from transfected COS cells with phosphatidylinositol-specific phospholipase C released 20-30% of the expressed enzyme from membranes, indicating that at least 20-30% of the expressed enzyme was anchored to membranes by a glycosyl-phosphatidylinositol linkage.
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PMID:Human carbonic anhydrase IV: cDNA cloning, sequence comparison, and expression in COS cell membranes. 131 Oct 94

Sarcolemmal membrane vesicle preparations from white and red muscles of rat were found to contain a carbonic anhydrase which was indistinguishable from carbonic anhydrase IV from rat lung. This isozyme appears to account for all of the carbonic anhydrase activity in the sarcolemmal vesicle preparations. Digestion of 39-kDa CA IV with endoglycosidase F reduced the Mr to 36 kDa, suggesting that it contains one N-linked oligosaccharide. Treatment of sarcolemmal vesicles with phosphatidylinositol-specific phospholipase C released all of the activity, indicating that the enzyme is anchored to membranes by a phosphatidylinositol-glycan linkage. White muscle sarcoplasmic reticulum vesicles also contain a small amount of 39-kDa CA IV-type enzyme. A 52-kDa polypeptide in sarcoplasmic reticulum membranes cross-reacts with anti-human CA II and anti-rat CA II antisera, but does not bind to the sulfonamide affinity column. This cross-reacting polypeptide has no detectable CA activity.
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PMID:Rat skeletal muscle membrane associated carbonic anhydrase is 39-kDa, glycosylated, GPI-anchored CA IV. 153 9

We have purified carbonic anhydrase (CA) IV from human lung membranes to apparent homogeneity in a form which is catalytically active and stable to storage. It has an apparent molecular mass of 35 kDa, is insensitive to endoglycosidases, and seems to contain no N-linked or O-linked oligosaccharide chains. Reduction of disulfide linkages led to altered migration on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and loss of catalytic activity. CA IV resembles CA II in being a "high activity" isozyme, relatively resistant to inhibition by halide ions and sensitive to inhibition by sulfonamides. Application of this purification to human kidney membranes produced homogeneous enzyme with nearly identical properties. Amino acid compositions of both lung and kidney CA IV were similar, as were tryptic peptide patterns resolved on high performance liquid chromatography (HPLC). Amino-terminal sequences of native enzyme from lung and kidney were identical, as were amino-terminal sequences of the three major tryptic peptides resolved on reverse phase HPLC. Isoelectric focusing revealed microheterogeneity in enzyme from both sources. Antibody raised to human lung CA IV reacted equally strongly with CA IV from kidney, but very weakly or not at all with other CAs. Treatment of lung membranes and kidney membranes with phosphatidylinositol-specific phospholipase C released over half of the membrane-bound CA IV, suggesting that at least half of the CA IV in both organs is anchored to membranes by phosphatidylinositol-glycan linkages.
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PMID:Carbonic anhydrase IV from human lung. Purification, characterization, and comparison with membrane carbonic anhydrase from human kidney. 211 24

Carbonic anhydrase (CA) was purified from the gills of the shore crab Carcinus maenas using affinity chromatography and HPLC. The predominantly membrane-bound CA was found to share several features with mammalian CA IV. Its apparent molecular weight of 36 kDa was reduced to 33 kDa by treatment with PNGase F, suggesting that crab CA is a glycoprotein with one N-linked oligosaccharide chain. More than half of the membrane-bound crab CA was released from membranes by treatment with a phosphatidylinositol-specific phospholipase C, indicating that the branchial CA is anchored to membrane surfaces by a phosphatidylinositol-glycan linkage. The enzyme also resembles mammalian CA IV in its relative sensitivity to inhibition by sulfonamides and the resistance to inhibition by halide ions. Amino acid composition of the HPLC-purified crab CA was examined and CNBr cleavage was carried out followed by N-terminal amino acid sequencing. Amino-terminal sequence of the native enzyme differed considerably from those of mammalian isozymes (human CA I and CA II, bovine CA III, human and rat CA IV). However, antisera raised against rat CA IV, CA II, and CA I all cross-reacted weakly with crab CA. Unlike mammalian CA IVs, crab gill CA was sensitive to 0.2% sodium dodecyl sulfate, suggesting that although crab gill CA is like mammalian CA IVs in many ways, it is less stabilized by intramolecular disulfide bonds.
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PMID:Membrane-associated carbonic anhydrase from the crab gill: purification, characterization, and comparison with mammalian CAs. 803 56

We used polyclonal antisera raised in rabbits against membrane-bound rat lung and human lung carbonic anhydrase (CA) IV in immunofluorescence studies to stain cryosections of rat soleus and extensor digitorum longus (EDL) and several human skeletal muscles. There was strong specific staining of capillaries in all muscles investigated. Several techniques were applied to verify this result. (a) Serial sections were either incubated with anti-CA IV/FITC or processed for endothelial ATPase reaction. There was precise co-localization of antibody marked structures and ATPase stained capillaries. (b) Human muscle sections were double stained with anti-CA IV/TRITC and anti-von Willebrand factor (vWF)/FITC. vWF, a capillary marker, and CA IV were localized at identical sites. (c) The CAIV was released from capillaries by treatment with phosphatidylinositol specific phospholipase C, suggesting that the enzyme is anchored to the endothelial cell membrane via a phosphatidylinositolglycan anchor. (d) A rat hindlimb was perfused with diluted antiserum. Cryosections of perfused soleus and EDL processed for anti-rabbit IgG/FITC staining showed clear fluorescence associated with capillaries, indicating that the antigen was accessible from the capillary lumen. (e) Immune complexes formed during antiserum perfusion as described in d were precipitated from muscle homogenates. SDS-PAGE followed by immunoblotting showed that the predominant portion of total muscle CA IV was bound in these complexes and therefore must be located intravascularly.
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PMID:Immunohistochemical localization of carbonic anhydrase IV in capillaries of rat and human skeletal muscle. 806 30

Direct measurements have found that ectothermic vertebrates possess a significant postcapillary PCO2 disequilibrium between arterial blood and alveolar gas, indicating that the CO2-HCO3(-)-H+ system does not reach equilibrium during pulmonary capillary transit. One plausible explanation for the blood disequilibrium is that turtle lungs lack vascular carbonic anhydrase (CA) to enhance the conversion of blood HCO3- to CO2. The present study characterized the contribution of pulmonary vascular CA to CO2 excretion and postcapillary CO2-HCO3(-)-H+ equilibration in the turtle. In situ perfusion of turtle lungs with salines containing membrane-permeating and membrane-impermeant CA inhibitors produced significant and comparable postcapillary pH and PCO2 perfusate disequilibria. Replacement of perfusate chloride with various anions had no affect on pulmonary CO2 excretion, thereby ruling out a significant contribution of Cl- sensitive CA isozymes (i.e., CA II-like). Perfusion of lungs with control salines following treatment with phosphatidylinositol specific-phospholipase C produced significant CO2 disequilibria, consistent with connection of CA IV to the luminal membrane of endothelial cells via a phosphatidylinositol glycan linkage. Vascular CA IV in the turtle lung would participate in diffusive and reactive CO2 equilibration and, thus, may compensate for the slow rate of the physiological anion shift in turtle erythrocytes (Stabenau et al., 1991) during capillary transit.
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PMID:Physiological characterization of pulmonary carbonic anhydrase in the turtle. 889 64

The purpose of this study was to examine the subcellular distribution and isoenzyme characteristics of carbonic anhydrase from the gills and respiratory air bladder of bowfin Amia calva, a primitive air-breathing fish. Separation of subcellular fractions by differential centrifugation revealed that the vast majority of carbonic anhydrase from the gills of bowfin originated from the cytoplasmic fraction. Washing of the gill microsomal pellet also indicated that the carbonic anhydrase originally associated with this pellet was largely due to contamination from the cytoplasmic fraction. Experiments with a carbonic anhydrase inhibitor, sulphanilamide, and the plasma carbonic anhydrase inhibitor from this species confirmed that the bowfin gill probably contains only one carbonic anhydrase isoenzyme which had properties resembling those of CA II. In contrast to the situation in the gills, a relatively large percentage (27%) of the total air bladder carbonic anhydrase was associated with the microsomal fraction. Washing of the air bladder microsomal pellet removed little of the carbonic anhydrase activity, indicating that most of the carbonic anhydrase in the microsomal fraction was associated with the membranes. Like the mammalian pulmonary CA IV isoenzyme, microsomal carbonic anhydrase from the bowfin air bladder was less sensitive to the bowfin plasma carbonic anhydrase inhibitor, sodium dodecylsulphate (SDS) and sulphanilamide than was cytoplasmic carbonic anhydrase from the air bladder. Microsomal carbonic anhydrase from the bowfin air bladder also resembled CA IV in that it appears to be anchored to the membrane via a phosphatidylinositol-glycan linkage which could be cleaved by phosphatidylinositol-specific phospholipase C. Taken together, these results suggest that a membrane-bound carbonic anhydrase isoenzyme resembling mammalian CA IV in terms of inhibition characteristics and membrane attachment is present in the air-breathing organ of one of the most primitive air-breathing vertebrates.
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PMID:Evidence for membrane-bound carbonic anhydrase in the air bladder of bowfin (Amia calva), a primitive air-breathing fish. 963 94

We tested the hypothesis that extracellular membrane-bound carbonic anhydrase (CA) type IV is responsible for the regulation of interstitial pH (pH(o)) transients in brain. Rat hippocampal slices were incubated in phosphatidylinositol-specific phospholipase C (PI-PLC), which cleaves the link of CA IV to the external face of plasma membranes. Then evoked alkaline pH(o) shifts were studied in a recording chamber, using pH microelectrodes. Incubation fluid was saved for later analysis. The ability to buffer a rapid alkaline load was reduced markedly in PI-PLC-treated tissue as compared with adjacent, paired control slices. The effect of benzolamide (a poorly permeant CA inhibitor) on evoked pH(o) shifts was diminished greatly in the PI-PLC-treated tissue, consistent with the washout of interstitial CA. Treatment of the incubation fluid with SDS abolished nearly all of the CA activity in fluid from controls, whereas an SDS-insensitive component remained in the fluid from PI-PLC-treated slices. These data suggested that CA type II (which is blocked by SDS) leaked from injured glial cells in both slice preparations, whereas CA type IV (which is insensitive to SDS) was liberated selectively into the fluid from PI-PLC-treated tissue. Western blot analysis was consistent with this interpretation, demonstrating a predominance of CA IV in the incubation fluid from PI-PLC-treated tissue and variable amounts of CA II in fluid from PI-PLC-treated and control slices. These results demonstrate that interstitial CA activity brain is attributable principally to membrane-bound CA IV.
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PMID:Interstitial carbonic anhydrase (CA) activity in brain is attributable to membrane-bound CA type IV. 1106 30

This study examined whether the snake lung possesses intravascular carbonic anhydrase (CA). Lungs were perfused with control salines and with salines containing CA inhibitors. Perfusion with control salines resulted in a stable CO(2) excretion, whereas CA inhibitors significantly reduced pulmonary CO(2) excretion. Membrane-permeable and membrane-impermeable CA inhibitors produced comparable decreases in CO(2) excretion, suggesting that extracellular, intravascular CA participated in the pulmonary CO(2)-HCO3(-)-H(+) reactions. Treatment of lungs with phosphatidylinositol specific-phospholipase C (PI-PLC) significantly decreased CO(2) excretion, indicating that CA was connected to the luminal endothelial cell membrane by a phosphatidylinositol glycan linkage. Taken together, these results are the first to demonstrate the presence of membrane-bound, intravascular CA (CA IV) in the snake lung.
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PMID:Pulmonary carbonic anhydrase in the garter snake, Thamnophis sirtalis. 1188 Sep 81

This main purpose of this study was to examine the subcellular distribution and isozyme characteristics of branchial carbonic anhydrase (CA) in Chaenocephalus aceratus, an Antarctic icefish that lacks erythrocytes. The Antarctic fish, Notothenia coriiceps, which possesses erythrocytes, was also studied for comparative purposes. The gills of both species were found to have measurable activity of CA. N. coriiceps also had normal levels of blood CA activity. In contrast, the icefish, C. aceratus, lacked blood CA activity, but was found to possess an endogenous plasma CA inhibitor. The large majority of branchial CA in the gills of these species was located in the cytoplasmic fraction whereas less than 3% was associated with the membrane fraction. In both species, CA from the cytoplasmic gill fraction and membrane fraction differed markedly in terms of their sensitivity to the plasma CA inhibitor from C. aceratus. In addition, treatment with the cleaving enzyme phosphatidylinositol-specific phospholipase C indicated that CA from the branchial membrane fraction of both species is anchored to the membrane via a phosphatidylinositol-glycan linkage. Taken together, these results provide evidence for a CA IV-like isozyme in the gills of Antarctic fish. At present, the functional significance of this membrane-bound CA is unknown, but the relative amount of this isozyme appeared to be greater in the gills of C aceratus, the species that lacked erythrocytes.
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PMID:Subcellular distribution and characterization of gill carbonic anhydrase and evidence for a plasma carbonic anhydrase inhibitor in Antarctic fish. 1203 91

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