UMLS:C0001127 - FACTA Search

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Query: UMLS:C0001127 (respiratory acidosis)
1,501 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inotropic effect of 1.25 times 10(-6)M acetylstrophanthidin (ACS) and the influx and efflux of labeled potassium (42K+) were studied in the arterially perfused rabbit interventricular septum under control conditions and during respiratory acidosis. An increase in the CO2 content of the gas mixture with which the modified Ringer's solution was equilibrated from 5 to 30% reduced the perfusate pH from 7.37 to 6.66. The increment in developed tension in the presence of ACS was 3.0 +/- 0.2 g (n equals 10) under control conditions, but it was greater, 7.1 +/- 0.9 g (N equals 9) during acidosis (P less than less than 0.001). The net K+ loss due to an increase in K+ efflux was 1.8 +/- 0.2 mmoles/kg wet weight in control experiments but only 0.1 +/- 0.1 mmoles/kg net weight under acidotic conitions (P less than less than 0.001); in seven of nine experiments in respiratory acidosis, no increase in K+ efflux occurred despite a marked positive inotropy. In three septums, K+ influx was reduced by ACS during respiratory acidosis. These results demonstrate that during acidosis ACS inhibits sodium-potassium adenosinetriphosphatase (Na+-K+ ATPase) and causes an inotropic effect but does not increase K+ efflux. K+ efflux cannot be linked to calcium (Ca2+) influx or regarded as the controlling factor of glycoside-induced inotropy. The results give further support to the proposal that digitalis-induced inotropy is secondary to an enhancement of a Na+-Ca2+ exchange system.
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PMID:Glycoside inotropy in the absence of an increase in potassium efflux in the rabbit heart. 23 98

We previously demonstrated that the effect of respiratory acidosis on cardiac contractility in the newborn was less than in the adult rabbit, and these data suggested a higher [Na+]i and [Na+]i-[Ca2+]o exchange in the newborn as compared to the adult. In this study, we investigated developmental changes of Na+-H+ exchange in isolated sarcolemmal vesicles. Sarcolemmal purification for Na+-K ATPase was 61.9 and 67.1 fold in the newborn and the adult rabbit heart, respectively. In the presence of an outwardly directed proton gradient across the vesicular membrane, sarcolemmal 22Na uptake rate in the newborn (0.22 +/- 0.01 nmol Na+/mg prot/s) was significantly higher than than in the adult (0.16 +/- 0.01 nmol Na+/mg prot/s). 1.0 mM amiloride inhibited 22Na uptake by 75% and 80% in the newborn and the adult, respectively. In the absence of a pH gradient, vesicular 22Na uptake in the newborn and the adult were not significantly different. In conclusion, the higher Na+-H+ exchange in the newborn may lead to a higher [Na+]i and subsequent calcium influx via Na+-Ca2+ exchange as compared with the adult during acidosis. This may explain the greater recovery of mechanical function in the newborn heart as compared to the adult heart during acidosis.
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PMID:Developmental changes of sarcolemmal Na+-H+ exchange. 255 24

Distal urinary acidification is thought to be mediated by an H+-ATPase sensitive to N-ethylmaleimide and dicyclohexyl-carbodiimide. We have studied the effect of chronic metabolic acidosis (NH4Cl for 3 days) or respiratory acidosis (inhalation of 10% CO2 for 2 days) on the H+-ATPase of plasma membranes prepared from the medulla. The enzymatic assay for the H+-ATPase was performed in the presence of ouabain and oligomycin and in the absence of Ca. H+-transport activity was assessed by the quenching of acridine orange in the presence of ATP. The 15-25% sucrose gradient fraction was enriched 40-fold in enzymatic activity over the homogenate, and 8-fold in enzymatic activity and 4-fold in H+-transport activity over the fluffy fraction (38,000 X g). Metabolic acidosis (pH less than 7.31) or chronic hypercapnia (PCO2 greater than 66 mmHg; 1 mmHg = 133.3 Pa) was induced for 2-3 days. Both groups showed the same enrichment factor in enzymatic and H+-transport assays as the control rabbits. Enzymatic and H+-transport activities, however, were not different between animals with respiratory acidosis and controls. Kinetic studies failed to disclose an increase in Vmax (673 vs. 702 mumol/(mg protein.min] or a decrease in Km (0.43 vs. 0.48 mM) in chronic hypercapnia as compared with controls. Metabolic acidosis also failed to increase H+-ATPase activity. These data demonstrate that the H+-ATPase of renal medulla does not display the expected increase in activity during acidosis. The role of this H+-ATPase in the adaptation to acidosis remains to be determined.
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PMID:Effect of metabolic or respiratory acidosis on rabbit renal medullary proton-ATPase. 289 4

Effects of respiratory and metabolic acidosis (pH approximately 6.8) on myocardial function were studied in the newborn and adult rabbits. Mechanical function was studied in the isolated arterially perfused heart preparation. Acidosis was induced either by increase of the perfusate PCO2 or by decrease of the bicarbonate content. During respiratory acidosis, developed tension (DT) decreased to 43 +/- 3% of control (n = 18) in the adult and this depression was significantly greater than in the newborn (DT = 92 +/- 4%, n = 6). Depression of DT by respiratory acidosis was observed even at high extracellular Ca. During metabolic acidosis, mechanical function decreased gradually and DT at 30 min into acidosis in the adult was 78 +/- 3% of control (n = 6). This depression of DT in the adult was significantly greater than in the newborn (DT at 30 min = 96 +/- 1% of control, n = 6). Statistical analysis using paired t test showed that respiratory acidosis, but not metabolic acidosis, caused significant negative inotropism in the newborn. Myofibrils were isolated and the ATPase was measured at 10(-8) to 10(-4) M Ca and at pH of 7.1 (control), 6.5, and 6.0. Reducing pH depressed the ATPase activity similarly in the newborn and adult. Intracellular buffer capacity was determined by titrating muscle homogenate with HCI. Although the initial pH was not different, addition of HCl to the homogenate caused less decrease in pH in the newborn. These data indicate that contractile function in the newborn heart is more resistant to acidosis and this may be due partly to the greater intracellular buffer capacity.
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PMID:Effect of acidosis on contractile function in the newborn rabbit heart. 315 69

This study examines the effects of acute in vitro acid-base disorders on Na+/H+ and H(+)-ATPase transporters in rabbit kidney proximal tubules (PT). PT suspensions were incubated in solutions with varying acid base conditions for 45 min and utilized for brush border membrane (BBM) vesicles preparation. BBM vesicles were studied for Na+/H+ exchange activity (assayed by 22Na+ influx) or abundance (using NHE-3 specific antibody) and H(+)-ATPase transporter abundance (using antibody against the 31 kDa subunit). The Na+/H+ exchanger activity increased by 55% in metabolic acidosis (pH 6.5, HCO3- 3 mM) and decreased by 41% in metabolic alkalosis (pH 8.0, HCO3- 90 mM). The abundance of NHE-3 remained constant in acidic, control, and alkalotic groups. H(+)-ATPase abundance, however, decreased in metabolic acidosis and increased in metabolic alkalosis by 57% and 42%, respectively. In PT suspensions incubated in isohydric conditions (pH 7.4), Na+/H+ exchanger activity increased by 29% in high HCO3- group (HCO3- 96 mM) and decreased by 16% in the low HCO3- groups (HCO3- 7 mM. The NHE-3 abundance remained constant in high, normal, and low [HCO3-] tubules. The abundance of H(+)-ATPase, however, increased by 82% in high [HCO3-] and decreased by 77% in the low [HCO3-] tubules. In PT suspensions incubated in varying pCO2 and constant [HCO3-], Na+/H+ exchanger activity increased by 35% in high pCO2 (20% pCO2, respiratory acidosis) and decreased by 32% in low pCO2 (1.5% pCO2, respiratory alkalosis) tubules. The NHE-3 abundance remained unchanged in high, normal, and low pCO2 tubules.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential regulation of Na+/H+ exchange and H(+)-ATPase by pH and HCO3- in kidney proximal tubules. 765 58

In this review we present immunolocalization studies using a monoclonal antibody raised against the 31-kD subunit of bovine H-ATPase, and indirect immunofluorescent staining. In the proximal tubules there is intense H-ATPase staining in the brush borders of S1 and S2, and linear subvillar invagination staining in S1, S2, and S3 segments. In the thick ascending limb of the loop of Henle there is a mild to moderate degree apical cytoplasmic vesicular staining in both medullary and cortical segments. In distal convoluted tubule the H-ATPase staining is more sharply delineated along the luminal plasma membrane. In the connecting tubule, the connecting tubule cells show mild to moderate staining of the luminal membrane and apical cytoplasmic vesicular staining, and the intercalated cells demonstrated prominent H-ATPase staining which is polarized to either apical or basolateral pole or distributed diffusely throughout the cell. In the cortical collecting duct the principal cells show minimal or no staining while the intercalated cells show very bright H-ATPase sustaining with six discernible subtypes based on polarization of the pump to apical or basolateral poles, and the degree of polarization (well polarized or poorly polarized). In the medullary collecting duct the principal cells show no staining and the intercalated cells show H-ATPase staining only in the apical pole. We also describe adaptive responses to different physiologic conditions, e.g. chronic acid or alkali loads (with or without colchicine), chronic respiratory acidosis, chronic desoxycorticosterone administration, remnant kidney, and chronic potassium depletion diet. Moreover, we demonstrated the immunocytochemical localization of the H-ATPase pump in the rabbit kidney as compared to the rat kidney.
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PMID:Immunocytochemistry of renal H-ATPase. 893 8

Studies of skinned fibers suggest that the rate of ATP turnover in skeletal muscle is depressed by acidosis. To examine whether this occurs in intact muscles, the ATP cost of isometric contractions was measured in ex vivo, arterially perfused cat biceps (predominantly fast-twitch) and soleus (slow-twitch) muscles under normocapnic (5% CO2) and hypercapnic (70% CO2) conditions. Hypercapnia decreased extracellular pH from 7.4 to 6.7 and intracellular pH from 7.1 to 6.5 (soleus) or 6.6 (biceps) but had no significant effect on the phosphocreatine (PCr)-to-ATP ratio in muscles at rest. The ATP cost of contraction was estimated from PCr changes, measured by gating the acquisition of 31P-nuclear magnetic resonance spectra to times before and after brief tetani (1 s at 100 Hz and 2 s at 25 Hz for biceps and soleus, respectively) or 10-s trains of twitches (2 and 1 Hz, respectively). Peak isometric force and the ATP cost of tetanic contraction (PCr/force x time integral) were not significantly different under hypercapnic compared with normocapnic conditions in either muscle (mean: 7.97 and 2.44 micromol x kg(-1) x s(-1) for biceps and soleus, respectively). Twitch force and the ATP cost per twitch decreased by nearly 50% during hypercapnic perfusion in both muscle types. The results indicate that hypercapnic acidosis has no significant effect on the ATPase rate per active myosin head in intact mammalian skeletal muscle.
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PMID:Acidosis has no effect on the ATP cost of contraction in cat fast- and slow-twitch skeletal muscles. 912 91

In this article we review immunocytochemical localization studies using a monoclonal antibody raised against the 31 kD subunit of bovine H(+)-ATPase, and indirect immunofluorescent staining. In the proximal tubules there is intense H(+)-ATPase staining along the brush borders of S1 and S2, and linear subvillar invagination staining in S1, S2, and S3 segments. In the thick ascending limb of the loop of Henle there is a mild to moderate degree apical cytoplasmic vesicular staining. In distal convoluted tubule there is mild to moderate degree of H(+)-ATPase staining which is sharply delineated along the luminal plasma membrane. In the connecting tubule, the connecting tubule cells show mild to moderate luminal membrane and apical cytoplasmic vesicular staining, and the intercalated cells demonstrate prominent H(+)-ATPase staining which is polarized to either apical or basolateral pole or distributed diffusely throughout the cell. In the cortical collecting duct the principal cells show minimal or no staining while the intercalated cells show very bright H(+)-ATPase staining with 6 identifiable morphologic subtypes based on polarization of the pump to apical or basolateral poles, and the degree of polarization (well polarized or poorly polarized). In the medullary collecting duct the principal cells show no staining and the intercalated cells show prominent H(+)-ATPase staining only in the apical pole. We also describe adaptive responses to different physiologic manipulations e.g., chronic oral acid loads, chronic respiratory acidosis, remnant kidney model, chronic desoxycorticosterone (DOCA) administration, and chronic potassium depletion diet. Moreover, we compare the immunocytochemical localization of the H(+)-ATPase pump of rabbit and kidneys.
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PMID:Immunocytochemical localization of the vacuolar H(+)-ATPase pump in the kidney. 922 60

The expression of the V-type proton ATPase (H+-ATPase) was examined in the gill of the freshwater rainbow trout (Oncorhynchus mykiss) using immunocytochemistry in concert with laser scanning confocal or electron microscopy. A synthetic peptide consisting of the carboxy-terminal region of the 31 kDa subunit of the bovine renal H+-ATPase was used to generate an antiserum in rabbits, and its suitability for use in trout gill was confirmed by western blotting. Gill epithelial cells demonstrated specific immunoreactivity, the intensity of which was increased markedly after 18 h of exposure to hypercapnia (1 % CO2 in air). The increased intensity of H+-ATPase immunoreactivity was associated with elevated branchial net acid excretion. In the hypercapnic fish, the specific immunoreactivity was associated with both the apical membrane and cytoplasm. Electron microscopy revealed that specific immunoreactivity was localized to the pavement cells and was particularly associated with the apical membrane and subapical cytoplasmic vesicles. The increased H+-ATPase immunoreactivity in the epithelial cells of hypercapnic fish and the increased intensity of the immunoreactive bands in western blots from hypercapnic fish demonstrate an 'up-regulation' of this protein in response to respiratory acidosis. The results are discussed with reference to current models of acidbase and ion regulation in the gill of freshwater fish.
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PMID:Immunolocalization of proton pumps (H+-ATPase) in pavement cells of rainbow trout gill 932 May 57

A magnetic cell separation technique (MACS) was developed for isolating and characterizing peanut lectin agglutinin positive (PNA(+)) cells from rainbow trout gills. Percoll density separated mitochondria-rich (MR) cells were serially labeled with PNA-FITC and an anti-FITC antibody covalently coupled to a 50-nm iron particle and then applied to a magnetic column. PNA(+) MR cells were enriched to >95% purity. Transmission electron microscopy analysis of both the PNA(+) and PNA negative (PNA(-)) fraction showed that PNA binds to MR chloride cells while the PNA(-) cell fraction is comprised of MR cells with features characteristic of pavement cells. Western blotting demonstrated that both PNA(+) and PNA(-) fractions had high levels of Na(+)-K(+)-ATPase and Sco1 expression; however, relative expression of H(+)-ATPase in PNA(+) and PNA(-) cells demonstrated that untreated fish had twofold higher H(+)-ATPase levels in PNA(-) cells relative to the PNA(+) cells. Furthermore, hypercapnic acidosis significantly increased the relative H(+)-ATPase expression on PNA(-) cells only, whereas metabolic alkalosis had no significant effect.
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PMID:Isolation and characterization of mitochondria-rich cell types from the gill of freshwater rainbow trout. 1183 84

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