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

Recent evidence indicates the existence of a protein related to the erythroid chloride-bicarbonate exchanger (band 3 protein) in the basolateral aspect of type A intercalated cells of the distal nephron. To probe the possible participation of this transporter in the renal adaptation to chronic hypercapnia, we examined the steady-state abundance of band 3 mRNA in the kidney during respiratory acidosis of variable duration. Total RNA was isolated from renal cortex and medulla of rats maintained in a 10% CO2 atmosphere for 2 or 5 days and from contemporaneous controls. The RNA was analyzed by Northern blot assay using cDNA probes for band 3 and beta-actin genes. Using a 3' cDNA probe encoding the membrane-associated domain of band 3 protein that is involved in anion exchange, we found a two- to threefold increase in steady-state mRNA levels (whether or not correction for the beta-actin signals was applied) in renal cortex and medulla at 5 days of hypercapnia. Similar, but less definitive, increases were observed at the 2-day time point. Using a 5' cDNA probe encoding an erythroid-protein segment absent from the kidney band 3 major transcript, we detected meager hybridization in renal tissue and no measurable variation during hypercapnia. Use of splenic RNA as a positive control for the 5' probe disclosed marked reduction of band 3 mRNA levels in hypercapnia, indicating organ specificity of band 3 gene expression. We conclude that steady-state levels of kidney band 3 mRNA increase in chronic respiratory acidosis as a result of transcriptional or posttranscriptional regulatory mechanisms. This adaptation might be involved in the augmentation of renal acidification characteristic of chronic hypercapnia.
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PMID:Rat kidney band 3 mRNA modulation in chronic respiratory acidosis. 199 72

The effects of acidosis and alkalosis on pulmonary gas exchange were studied in 32 pentobarbital sodium-anesthetized intact dogs after induction of oleic acid (0.06 ml/kg) pulmonary edema. Gas exchange was assessed at constant ventilation and constant cardiac output, by venous admixture calculations and by intrapulmonary shunt measurements using the sulfur hexafluoride (SF6) method. Metabolic acidosis (pH 7.20) and alkalosis (pH 7.60) were induced with HCl and Carbicarb (isosmolar Na2CO3 and NaHCO3), respectively. Hypercapnia was induced by adding inspiratory CO2, whereas pH was allowed to change (respiratory acidosis, pH 7.20) or maintained constant (isolated hypercapnia). Mean intrapulmonary shunt and pulmonary arterial minus wedge pressure difference, respectively, changed from 44 to 33% (P less than 0.05) and from 9 to 10 mmHg (P greater than 0.05) in metabolic acidosis, from 44 to 62% (P less than 0.001) and from 12 to 8 mmHg (P less than 0.01) in metabolic alkalosis, from 40 to 42% (P greater than 0.05) and from 13 to 16 mmHg (P less than 0.05) in respiratory acidosis, from 42 to 52% (P less than 0.05) and from 8 to 12 mmHg (P less than 0.01) in isolated hypercapnia. These results indicate that acidosis, alkalosis, and hypercapnia markedly influence pulmonary gas exchange and/or pulmonary hemodynamics in dogs with oleic acid pulmonary edema.
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PMID:Acid-base status affects gas exchange in canine oleic acid pulmonary edema. 201 14

Hypoxic, hypercapnic acidosis (HHA) decreases tension and enhances fatigue in hamster diaphragm in vitro. We hypothesized that theophylline would decrease the harmful effect of HHA. Hamster diaphragm strips were studied in Krebs solution aerated with 21% O2 and 12% CO2. The force-frequency responses and the tension and relaxation of brief, submaximal contractions were studied. Mild fatigue was produced by a series of 45 submaximal contractions, after which recovery of force was followed for 15 min. Theophylline (0.55 mM) was added at the time of exposure to HHA (early theophylline) in half the strips and at the end of the fatigue run (late theophylline) in the others. In contrast to our hypothesis, early theophylline had a limited effect on force production in unfatigued HHA diaphragm strips and resulted in lower force production in the recovery period. Late theophylline improved force in the recovery period for low-frequency contractions. Thus the effect of theophylline in the setting of HHA depended on the time it was added and was beneficial only if added after the muscle stopped contracting.
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PMID:The effect of theophylline on hypoxic, hypercapnic hamster diaphragm muscle in vitro. 202 50

To examine the effects of respiratory acidosis in vivo on the adaptation of acidification in the collecting tubule, New Zealand White rabbits were exposed to a 6.7% CO2-93.3% O2 gas mixture in an environmental chamber for 0, 6, 24, or 48 h before obtaining collecting tubules for in vitro study. These collecting tubules were then perfused and bathed in vitro in identical Krebs-Ringer bicarbonate solutions. After 1 h equilibration total CO2 flux (JtCO2) was measured. The urine pH of the rabbits fell, whereas the blood bicarbonate rose as CO2 exposure time increased. In cortical collecting tubules, JtCO2 in vitro correlated with length of animal exposure to hypercarbia (y = 1.14174 + 0.1437x, r = 0.57, P = 0.002), and with the blood bicarbonate of the animal (y = 26.8471 + 0.0858x, r = 0.59, P less than 0.05). In vitro JtCO2 in medullary collecting tubules from rabbits that had been in hypercarbic atmosphere for 48 h (23.2 +/- 4.9 pmol.mm-1.min-1) did not differ from JtCO2 in control tubules (25.0 +/- 3.2 pmol.mm-1.min-1, not significant). Thus the cortical collecting tubule exhibits an adaptive increase in JtCO2 in response to hypercarbia, whereas the medullary collecting tubule does not.
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PMID:Collecting tubule adaptation to respiratory acidosis induced in vivo. 210 60

Neotenic larval Ambystoma tigrinum were subjected to hypercapnia (3% CO2, 22 Torr) for 24 h under different conditions: alpha-adrenergic blockade using phentolamine, beta-adrenergic blockade using propranolol, and sham treatments. The sham animals were able to carry out a partial extracellular pH compensation that consisted of an increase in extracellular [HCO3-]. Animals treated with catecholamine antagonists did not compensate to the same extent. Analysis of plasma samples by high-performance liquid chromatography with electrochemical detection revealed a significant increase in circulating norepinephrine, but not epinephrine, during the high-CO2 exposure. Measurements of cutaneous ion transport showed that beta-antagonists block the increased Na+ influx associated with hypercapnia, whereas alpha-antagonists inhibited the decrease in cutaneous Cl- influx that is also associated with respiratory acidosis. Additionally, both alpha- and beta-blockers inhibited the increase in transcutaneous potential difference that accompanied the respiratory acidosis. The results are consistent with a role for circulating catecholamines in compensatory ion transport responses to respiratory acidosis in this species.
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PMID:Acid-base-electrolyte balance responses to catecholamine antagonists in Ambystoma tigrinum. 211 75

In a number of recent investigations a renal cortical PCO2 higher than that of systemic blood was reported. We have studied this problem with the use of micro-Severinghaus electrodes based on antimony, H+ liquid ion exchange, and glass pH electrodes with an inner buffer solution containing 0.5 mg/ml carbonic anhydrase (CA). Measurements in renal cortical structures (renal tubules, star vessels, capillaries, and glomeruli in Munich-Wistar rats) were compared with determinations in renal vein or artery performed with the same electrode in sequence. No significant differences in PCO2 were found between cortical structures and renal vein in control rats, in metabolic alkalosis, respiratory acidosis and alkalosis, and after CA inhibition. Nevertheless, absolute PCO2 levels, which followed the PCO2 of systemic blood, were markedly different in these groups. Measurements of pH and PCO2 at the same tubule site were compatible with HCO3- determinations in tubule fluid in vitro (made with use of the Henderson-Hasselbalch equation) in control rats. When proximal tubules were pump-perfused in vivo with a solution containing 30 mM NaHCO3, measured PCO2 approached that of the perfusing solution at high pump rates, and approached the free-flow value as rates were reduced to zero, indicating that the CO2 generated in the lumen equilibrated rapidly across the epithelium. Reducing renal blood flow by aortic clamping reduced renal cortical PCO2. In conclusion, in a large number of experimental conditions renal cortical PCO2 was never higher than that measured in systemic blood.
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PMID:PCO2 in renal cortex. 190 58

Seven patients with status asthmaticus intubated for respiratory failure who had elevated airway pressures and persistent respiratory acidosis were successfully ventilated using a mixture of 60 percent helium and 40 percent oxygen. All patients experienced a rapid reduction in airway pressures, CO2 retention, and resolution of acidosis while breathing a helium-oxygen mixture. There were no untoward effects. Helium-oxygen mixtures improve ventilation by reducing the Reynolds number and reducing density dependent resistance. Helium's beneficial effects are due to its high kinematic viscosity, high binary diffusion coefficient for CO2, and high diffusivity. Helium-oxygen mixtures should be considered for use in mechanically ventilated asthmatics with respiratory acidosis who fail conventional therapy.
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PMID:Helium-oxygen mixtures in intubated patients with status asthmaticus and respiratory acidosis. 211 49

The effect of in vivo respiratory acidosis for 4 and 48 hr was examined in the turtle bladder by placing turtles in hypercapnic chambers. Blood pH was significantly lowered and pCO2 was significantly elevated over control values both 4 and 48 hr, while blood bicarbonate was only increased after 48 hr. In vitro rates for H+ secretion determined by the reverse short-circuit current were significantly greater in bladders from 48 hr of respiratory acidosis than those of controls (27.3 +/- 2.7 vs 20.6 +/- 1.7 microA, P less than 0.05). In vitro rates for HCO3- secretion determined by pH stat were not altered. Fluorescence microscopy was used to study cell morphology. The number of carbonic anhydrase cells (corrected for the total number of cells) as determined by four different fluorescence stains (6-carboxyfluorescein, rhodamine 123, acridine orange, and 3,3'-diethyloxacarbocyaninine iodide) was increased both after 4 and 48 hr of respiratory acidosis. However, the number of HCO3(-)-secreting (beta subtype) carbonic anhydrase cells, determined by a probe for the anion exchanger, NBD-taurine, was not increased. In vitro 1% CO2 for 4 hr also resulted in an increase in H+ secretion and in the number of 6-carboxyfluorescein-positive cells, both of which could be blocked with SITS pretreatment. We conclude that CO2 changes the mucosal cells more toward the carbonic anhydrase phenotype, and that if NBD-taurine accurately identifies the beta cells, that the adaptation produces or recruits more alpha-carbonic anhydrase cells.
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PMID:Adaptation to respiratory acidosis in the turtle bladder. 211 38

We studied the effect of graded acute hypercapnic acidosis (HA) on sympathetic neural activation in 15 juvenile farm swine in vivo. In seven animals with acute HA, plasma norepinephrine (NE) concentration increased progressively from 189 +/- 34 to 483 +/- 80 pg/ml (P less than 0.04) as arterial CO2 partial pressure (PaCO2) increased in steps from 40 to 80 Torr (pH 7.17 +/- 0.01). Plasma epinephrine (EPI) concentration increased from 30 +/- 15 to 125 +/- 66 pg/ml (P = NS) over the same change in PaCO2. At PaCO2 of 110 Torr, plasma NE increased 3.4-fold above maximal basal concentrations; plasma EPI was 1.8-fold greater than basal under the same conditions. With HA, systemic vascular resistance (SVR) decreased from 1,748 +/- 110 to 1,392 +/- 145 dyn.s.cm-5 (P less than 0.0002), cardiac output (CO) increased from 3.4 +/- 0.3 to 4.3 +/- 0.3 l/min (P less than 0.01), and heart rate (HR) increased from 117 +/- 11 to 154 +/- 17 beats/min (P less than 0.03). To demonstrate that catecholamine secretion was related directly to acidosis caused by an increase in PaCO2, HCO3- was infused in eight other swine to buffer extracellular acute HA (pH 7.37 +/- 0.01 at PaCO2 of 80 Torr). Buffering attenuated the increase in plasma NE, which remained within the normal range at PaCO2 of 80 Torr. The decrease in SVR and increases in CO and HR also were also attenuated by HCO3- buffering of HA. We demonstrate the effects of graded acute HA on endogenous secretion of catecholamine and on the associated hemodynamic responses in swine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sympathetic secretory response to hypercapnic acidosis in swine. 212 4

During acute respiratory acidosis, cardiac contractile pressure first drops but then recovers substantially. We investigated the mechanism of this response in isovolumic perfused ferret hearts. Developed pressure (DP) and its first derivative (dP/dt) were measured before, during, and after hypercapnia induced by equilibrating the perfusate with 15% CO2, rather than the 5% CO2 used in control. Intramyocardial pH (pHi) was measured by phosphorus nuclear magnetic resonance (NMR) spectroscopy. After the onset of hypercapnia (1-2 min), DP and +dP/dt reached minimal mean values of 37 +/- 2 and 39 +/- 3% of control, respectively. This early decline in myocardial contactility was followed by a partial recovery such that DP and +dP/dt had returned to 66 +/- 6 and 62 +/- 4% of control, respectively, by 14 min of hypercapnia. pHi fell from 7.17 +/- 0.01 in control to 6.88 +/- 0.11 after approximately 2 min of hypercapnia. Thereafter, pHi recovered linearly with a mean slope of 0.011 +/- 0.003 pH U/min. Ethylisopropylamiloride (10(-6) M), a blocker of Na(+)-H+ exchange, prevented the recovery of pHi during hypercapnia and attenuated the recovery of contractility by 40%. We conclude that the recovery of contractility during respiratory acidosis at least partially reflects an underlying recovery of pHi mediated by Na(+)-H+ exchange.
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PMID:Recovery of contractility and pHi during respiratory acidosis in ferret hearts: role of Na(+)-H+ exchange. 216 81


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