Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Segments of superficial and juxtamedullary proximal convoluted tubules of the rabbit were perfused in vitro to examine the mechanisms responsible for net volume reabsorption. The very early postglomerular segments were not studied. Fluid reabsorptive rates and transepithelial potential differences were compared under various conditions: (a) with perfusate that simulated glomerular filtrate; (b) with perfusate that lacked glucose, amino acids, and acetate and that had HCO(3) and Cl concentrations of 5 and 140 mM, respectively; (c) with perfusate that lacked glucose, amino acids, and acetate but with 20 meq of NaHCO(3) replaced with 20 meq of Na cyclamate; (d) with the same perfusate as in b but in the presence of ouabain in the bath; (e) with ultrafiltrate of rabbit serum titrated with HCl to final HCO(3) and Cl concentrations of 2 and 134 mM, respectively. Tubules were perfused with this titrated ultrafiltrate at 37 degrees C, 21 degrees C, and in the presence of 0.1 mM ouabain in the bath. Bath fluid in all experiments was regular rabbit serum. Under conditions a and b superficial proximal convoluted tubule (SFPCT) and juxtamedullary proximal convoluted tubule (JMPCT) behaved similarly with the exception that SFPCT exhibited a lumen-positive and JMPCT a lumen-negative electrical potential under condition b. However, under condition c SFPCT failed to exhibit net volume reabsorption, whereas reabsorption in JMPCT continued unchanged. Ouabain did not affect volume reabsorption in SFPCT under condition d, whereas neither ouabain nor hypothermia affected SFPCT under condition e. In contrast, ouabain and hypothermia totally inhibited volume reabsorption in JMPCT under conditions d and e. These studies document heterogeneous mechanisms responsible for volume reabsorption in the major portions of SFPCT and JMPCT with passive forces predominating in SFPCT and active forces in JMPCT.
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PMID:Characteristics of volume reabsorption in rabbit superficial and juxtamedullary proximal convoluted tubules. 42 62

The intracellular content of K and Na was measured in isolated nonperfused proximal straight renal tubules (PST) in order to determine the mode of cell volume regulation in hypotonic bathing media. Immersion in hypotonic medium caused PST to lose K and Na (with anions) in a magnitude sufficient to account for the regulation of cell volume. Hypothermia (10 degrees C) blocked cell volume regulation in hypotonic medium by promoting net accumulation of Na, although K loss was equivalent to that observed at 37 degrees C. Ouabain (10(-5) M) caused rapid loss of cell K and gain of Na in an isotonic bath, but the glycoside did not inhibit the subsequent adjustment of cell volume in hypotonic medium. In hypotonic medium ouabain-treated tubules lost Na, but not K, to account for hypotonic volume adjustment of PST in ouabain. We conclude that proximal straight tubules extrude electrolytes (K, Na, and anions) in the adjustment of cell volume in hypotonic media; in normal tubules K and Na are lost whereas Na moves primarily in ouabain-treated tubules. The adjustment of size through the extrusion of intracellular solutes in dilutional states appears to be a general property of mammalian cells.
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PMID:Effect of hypotonic medium on K and Na content of proximal renal tubules. 83 12

Hypothermia (4 degrees C) reversibly inhibits metabolism of prostaglandin A1 (PGA1) in the perfused rabbit lung and decreases the transit time of PGA1 through the lung. Co-perfusion of PGA1 (0.28 muM) and PGE1 (2.8 muM) resulted in 48% inhibition of PGA1 metabolism. Ouabain and phenoxybenzamine (10(-5) M) did not significantly affect PGA1 metabolism. We examined the effect of diphloretin phosphate (DPP; 6.0 mu/ml) on the metabolism of prostaglandin A1 (0.28-5.03 muM) and E1 (PGE1;0.28-11.56 muM). The metabolism of both prostaglandins appeared to be saturable processes and, in the case of PGE, the data conformed to Michaelis-Menten kinetics: the apparent Km (muM) and apparent Vmax (nmol/lung X min-1) in control lungs were 9.0 +/- 0.3 and 87.9 +/- 1.4, respectively, and in the DPP-treated lungs were 9.6 +/- 0.5 and 57.7 +/- 1.8. This suggests that DPP acts in a noncompetitive manner. The magnitude of inhibition of PGA1 and PGE1 metabolism (both at 0.28 muM) was linearly related to the DPP concentration, over the range of 0.06 to 25.0 mug/ml. The ID50 values of DPP inhibition of PGA1 and PGE1 metabolism were 2.2 and 8.4 mug/ml, respectively. Perfusion of PGA1 at 2.96 muM or higher concentrations caused reversible vasoconstriction which was significantly inhibited (P less than .05) by DPP (6.0 mug/ml) by an average of 77.2 +/- 5.8% (n = 7).
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PMID:Metabolism of prostaglandins A and E in the perfused rabbit lung and the effects of selected inhibitors. 97 71

Choroid plexuses from the lateral (LVCP) and fourth ventricles (FVCP) of rats or rabbits were incubated in artificial cerebrospinal fluid (CSF) containing 1 microM [14C]L-carnitine with various concentrations of L-carnitine ranging from 0.01 mM to 1.0 mM. The time course of 1 microM [14C]L-carnitine uptake by the choroid plexus indicated that it increased linearly for the first 15 min. Steady-state levels were reached by 30 min with tissue concentrations more than 20 (FVCP)- to 30 (LVCP)-fold greater than the concentration in the medium. The uptake of [14C]L-carnitine was increased with increasing concentrations of the substrate in the medium and this uptake followed Michaelis-Menten kinetics. The uptake by the rat choroid plexus took place against a concentration gradient via a saturable process and kinetic analysis revealed Km of 32 microM (LVCP) and 34 microM (FVCP) and Vmax of 21 (LVCP) and 17 nmol/ml/min (FVCP), respectively. Ouabain inhibited the uptake by 51% (FVCP) and 48% (LVCP) and hypothermia (0 degrees C) produced inhibition by 97% (FVCP) and 96% (LVCP), respectively. However, the uptake of L-carnitine was not sensitive to probenecid or tyrosine, which indicates the presence of an independent carrier for L-carnitine in the choroid plexus. Similar results were obtained with the rabbit choroid plexus.
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PMID:Kinetic analysis of L-carnitine uptake by the choroid plexus. 193

The cellular response to hypotonic stimulation was studied with videometric methods in 266 proximal renal tubules dissected from Carassius auratus (goldfish). In hypotonic solutions (low NaCl), cells underwent rapid swelling followed by gradual shrinking toward isotonic volume (volume-regulatory decrease phase, VRD). Hypothermia (8 degrees C), increased extracellular potassium (15, 25, and 40 mM), quinine (0.1 mM), barium (0.5 mM), 4,4'-diisothio-cyanostilbene-2,2'-disulfonic acid (DIDS; 0.02 mM), acetazolamide (0.1 mM), decrements in extracellular bicarbonate, and increases in extracellular chloride impaired VRD. Ouabain (1.0 mM), furosemide (0.1 mM), and the chloride channel blocker 5-nitro-2-(3-phenylpropylalanine) benzoate (NPPB; 0.001 mM) had no effect. While VRD occurred in the absence of extracellular calcium influx, addition of the calcium ionophore A23187 (0.01 mM) in the presence of ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA; 2.0 mM) impaired this process both in acidic and alkaline media. Trifluoroperazine (0.01 mM) reversibly inhibited VRD. The effect of this calmodulin inhibitor could not be overridden with the cationic ionophore gramicidin (0.5 microM). The data suggest that Carassius proximal renal tubular cells volume regulate in hypotonic solutions by the loss of KCl and osmotically obligated water. We postulate that the main efflux of potassium is through a calcium-gated potassium channel with its counter ion extruded through a calmodulin-regulated Cl(-)-HCO3- exchanger.
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PMID:Possible role of basolateral cell membrane in proximal renal tubule osmoregulation. 233 Oct 23

1. Ouabain given by intracerebroventricular injection to mice in small doses (0.1-0.4 mug) produced a dose related depression of central nervous activity, characterized by a reduction in spontaneous locomotor activity, hypothermia, catalepsy and ptosis, lowered body posture and lack of response to external stimuli. Doses above 0.4 mug were excitatory, convulsant and lethal.2. The depressant effects could be antagonized by (+)-amphetamine, desmethylimipramine, dibutyryl cyclic 3'5'-adenosine monophosphate and caffeine.3. The MAO inhibitor nialamide produced only a small antagonism of ouabain, resulting in a greater rate of recovery from the depressant effects of ouabain.4. The depressant effects were associated with a marked elevation of whole-brain dopamine levels with little change in noradrenaline or 5-hydroxytryptamine.5. The dopamine-beta-hydroxylase inhibitor sodium diethyldithiocarbamate, administered by intracerebroventricular injection, produced effects qualitatively similar to those seen after ouabain.6. An interference with central transmitter function is postulated as a possible mode of action of intracerebroventricularly injected ouabain.
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PMID:Pharmacological properties of centrally administered ouabain and their modification by other drugs. 432 23

Lowering myocardial temperature increases contractile force, presumably by increasing intracellular calcium content. To study the mechanisms behind this, we compared the effects of some known inotropic interventions with hypothermia on mechanical restitution and post-rest contractile force in isolated guinea-pig papillary muscles. In four groups (n = 6 per group), the effects of: (1) reducing the ability for Na/Ca exchange to extrude Ca2+ (a) by increasing [Na+]i with ouabain or (b) by increasing [Ca2+]o; and (2) activation of calcium channels with Bay-K 8644, were compared with lowering temperature from 37 to 27 degrees C. Normally (at 37 degrees C and 2 mM CaCl2), mechanical restitution could be described by a rapid recovery phase with a time constant between 180 and 220 ms, followed by a slowly decaying phase with a time constant between 5000 and 8000 ms and post-rest contractions (1-10 min rest) were markedly depressed compared to steady-state contractions. Steady-state developed force was markedly increased at 27 degrees C, after 1 microM ouabain, 6 mM CaCl2 or 0.1 microM Bay-K 8644. At 27 degrees C the rapid recovery phase of restitution was delayed while the slowly decaying phase was not affected. Ouabain and increased [Ca2+]o caused elevation of the slowly decaying phase of restitution and markedly attenuated the post-rest depression of developed force, which may be attributed to a reduced diastolic extrusion of Ca2+ via the Na/Ca exchanger. Hypothermia and Bay-K 8644 on the other hand, augmented this post-rest depression. Hence, this study suggests that increased Ca2+ influx due to delayed inactivation of calcium channels may account for the increased developed force during hypothermia rather than reduced diastolic extrusion of Ca2+ via the Na/Ca exchanger.
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PMID:Mechanisms for hypothermia-induced increase in contractile force studied by mechanical restitution and post-rest contractions in guinea-pig papillary muscle. 769 97

In non-adult hearts, hypothermia influences protection of the myocardium by exerting effects on specific ion transporters, thereby altering the normal balance between ion pumps and ion leaks. We studied the effects of hypothermia on individual ion transporters in cardiac myocytes to better understand how to preserve the normal ion balance at reduced temperatures, and thereby enhance myocardial protection. Cardiocytes obtained from 11 day chick embryos were cultured for 3 days, and then equilibrated in a glucose containing HEPES-TRIS buffered salt solution at 37 degrees C (pH = 7.4). The cells were incubated at 10 +/- 2 degrees C for 5 to 360 min in the absence or presence of specific ion transport inhibitors, and ion contents were assessed by atomic absorption spectrophotometry. Intracellular Na content increased from approximately 90 nmol/mg protein (control) to 2-3 times this value within 30 min, and then returned to control levels by 60 min. This increase in Na was accompanied by a small rise in total Ca (1.5 times control). Acidotic pH (6.4) and/or ethylisopropyl amiloride (100 microM), but not bumetanide (100 microM) prevented the rise in Na content, suggesting the Na/H exchanger contributed to the initial Na influx. Ouabain (1 mM), exacerbated the Na rise and prevented its recovery to control values at 10 degrees C, although Rb flux measurements revealed only a low level of Na/K ATPase activity throughout 240 min at 10 degrees C (15% of 37 degrees C activity). Calcium content rose to 10 times control values in the presence of ouabain at 37 degrees C only, consistent with a lack of significant Na/Ca exchange activity during hypothermia. In conclusion, the effects of hypothermia on ion pumps and ion leaks in embryonic heart cells are as follows: (1) a low level of Na/K ATPase activity contributes significantly to ion regulation; (2) activity of the Na/H exchanger must be attenuated to minimize Na loading; (3) slowing of the Na/Ca exchange may reduce Ca induced cell injury. We suggest that reducing Na/H exchange activity during hypothermia, using cardioplegic solutions with a slightly acidic pH or with added ethylisopropyl amiloride, may enhance the protective effects of hypothermia in non-adult hearts.
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PMID:Ion transport during hypothermia in cultured heart cells: implications for protection of the immature myocardium. 838 88

Little information is available regarding the effect of ion transport agonists and antagonists on ion transport in the human lung. Therefore, we studied ion transport in lungs resected from patients with lung cancer. A test solution of 45 ml of isosmotic albumin was instilled into one segment of a resected lobe within 10 min of resection. Because protein leaves the air space very slowly, the concentration of alveolar protein over 4 h was used to quantify the volume of alveolar fluid. Ion transport was measured from the changes in ion concentrations and the volume of alveolar fluid. In the basal condition, the net efflux of Na+ and Cl- were 4.66 +/- 0.83 mEq/l/h and 3.52 +/- 0.84 mEq/l/h, respectively. In contrast, the net influx of K+ was 0.44 +/- 0.07 mEq/l/h. Amiloride (10(-5) M), an inhibitor of apical Na+ uptake, ouabain (10(-3) M), an inhibitor of Na(+)-K+ ATPase, and hypothermia (8 degrees C) reduced the efflux of Na+ and Cl-. Ouabain and hypothermia increased the net influx of K+. Terbutaline (10(-3) or 10(-4) M) increased the efflux of Na+ and Cl-, but did not affect the influx of K+. Propranolol (10(-4) M) and amiloride (10(-5) M) inhibited the terbutaline-induced increase in the transport of Na+ and Cl-. Alveolar fluid clearance was closely correlated with Na+ transport and with Cl- transport. However, the values of Na+ transport were greater than those of Cl- transport. These data suggest that Na+ transport is accompanied by Cl- transport and fluid movement out of the alveolar space in resected human lungs.
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PMID:[Transport of ions across alveolar epithelial cells in resected human lungs]. 853 92

Hypothermia is intentionally imposed during the harvesting of lungs for transplantation. The aim of this study was to investigate the fluid balance alterations in rat lung preparations exposed to hypothermic perfusion. Lowering perfusate temperature from 37 degrees C to values between 27 and 7 degrees C caused an immediate, marked pulmonary hypertension and vasoconstriction accompanied by rapid development of pulmonary edema (+1.15 g, or approximately 90%, gain in lung weight within 5 min). However, on rewarming, vasoconstriction was immediately reversed. Edema was resolved, but along a two-component time course: an immediate reduction of lung weight on rewarming (t 1/2 of 0.5 min) that mirrored the recovery of pulmonary artery pressure and vasoconstriction, and also a slower pressure-independent component of recovery (t 1/2 of 3.5 min). Ouabain (300 microM) markedly inhibited the lung's ability to recover from edema, indicating that fluid clearance from lung tissue was the result of activation of ouabain-sensitive (Na+,K+)-ATPase pump. Results could not be explained by vascular or airspace injury as lung sections from hypothermic lungs appeared normal. The findings indicate that hypothermia induces pulmonary edema formation, which can be rapidly cleared upon rewarming by activation of ouabain-sensitive (Na+,K+)-ATPase pump. Thus, impaired fluid clearance from lung extravascular spaces may be a critical factor limiting gas exchange in transplanted lungs exposed to hypothermia.
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PMID:Reversible temperature-sensitive alterations in lung fluid balance. 1158 Jan 13


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