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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inhibition of ADP phosphorylation by both glycolysis and mitochondria in P388D1 cells exposed to H2O2 is described. Net glucose uptake and lactate production were inhibited by oxidant exposure (ED50 = 50-100 microM). Glycolysis was specifically inactivated at the glyceraldehyde-3-phosphate dehydrogenase step by three independent mechanisms: (a) direct inactivation of the intracellular enzyme (ED50 approximately equal to 100 microM); (b) reduction of the intracellular concentration and redox potential of its nicotinamide cofactors; and (c) a cytosolic pH shift further from the enzyme optima. Consistent with inhibition of glycolysis at the glyceraldehyde-3-phosphate dehydrogenase step, a rise in the intracellular concentration of glyceraldehyde 3-phosphate, dihydroxyacetone phosphate, and fructose 1,6-bisphosphate was observed. The calculated combined inhibition of glyceraldehyde-3-phosphate dehydrogenase activity could be reasonably correlated with the depression in glycolytic flux rate with the appropriate modeling. The steady-state contribution by mitochondria to the total intracellular ATP pool was indirectly determined by the use of various metabolic inhibitors and was found to rapidly decline following exposure to 300-800 microM H2O2. The inhibition of ADP phosphorylation appeared to be related more to the direct inhibition of the ATPase-synthase complex rather than to the diminished capacity of the respiratory chain for coupled electron transport. Both the estimated rates of ADP phosphorylation by glycolysis and mitochondria and the estimated rate of ATP hydrolysis by ongoing metabolism were utilized to model the approximate decline in intracellular ATP expected at 15-min exposure to various H2O2 concentrations. Theoretical calculations and the measured intracellular ATP status were in good agreement. Oxidant exposure for 15 min resulted in dose-dependent killing of the cells (ED50 = 500 microM), indicating a close correlation between H2O2-mediated loss of intracellular ATP and cell viability. The possible contribution of impaired energy homeostasis during oxidant-mediated injury to the process of cell dysfunction and death is discussed.
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PMID:Mechanisms of oxidant-mediated cell injury. The glycolytic and mitochondrial pathways of ADP phosphorylation are major intracellular targets inactivated by hydrogen peroxide. 333 86

Acute exposure of rainbow trout (Salmo gairdneri) to low external calcium (25 microM) caused an immediate but transient increase in plasma epinephrine concentration that may have been related to a concomitant depression of blood pH. Intra-arterial infusion of epinephrine at normal ambient calcium levels (0.35 mM) for 4 h caused circulating levels of epinephrine to rise from 2.9 X 10(-9) to 8.0 X 10(-8) M but did not affect norepinephrine levels, or branchial unidirectional calcium fluxes. Active (ATP-dependent) calcium transport across basolateral plasma membranes prepared from gill epithelial cells was not affected by pretreatment of fish with epinephrine or by direct application of epinephrine or cAMP, in vitro. Epinephrine infusion elevated urine flow rate, decreased urine pH, and increased urine phosphate levels significantly. Net renal calcium efflux increased significantly as a result of the increased urine flow rate. It is concluded that epinephrine does not stimulate branchial calcium uptake or renal conservation of calcium in rainbow trout at normal external calcium levels and therefore we cautiously suggest that epinephrine is unlikely to be involved in calcium balance during periods of exposure to low external calcium. Instead, epinephrine may play a role in compensating the acid-base disturbances and the increased branchial water influx that are associated with exposure to low ambient calcium.
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PMID:Effects of epinephrine on branchial and renal calcium handling in the rainbow trout. 338 70

Pretreatment of the ischemic myocardium with verapamil protects against mitochondrial respiratory depression observed during ischemic arrest as well as during reperfusion. Since ischemic mitochondrial function appears not to be altered further by reperfusion, the purpose of this study is to identify a biochemical event affecting mitochondria that is specifically associated with reperfusion injury. It has been proposed that increased cellular Ca2+ influx and oxygen toxicity may result from reintroduction of coronary flow. Increased cytosolic Ca2+ is transmitted to the mitochondria with subsequent activation of Ca2+-dependent events, including phospholipase A2. Net production of lysophospholipids (and loss of total diacylphospholipids from the mitochondria) will proceed when reacylation mechanisms are inhibited. Since acyl-CoA:lysophospholipid acyltransferase is a sulfhydryl-sensitive enzyme and since increased activity of glutathione peroxidase shifts the levels of the mitochondrial sulfhydryl buffer, glutathione, towards oxidation, levels of glutathione and its oxidation state were measured during reperfusion in the absence or presence of verapamil pretreatment. Ischemia lowers total glutathione and reduces the redox ratio (reduced glutathione: oxidized glutathione) by 85%. Reperfusion partially returns the redox ratio to control by causing oxidized glutathione to disappear from the matrix. Verapamil maintains both the concentration and the redox potential of glutathione at control levels. Concomitant with alterations in reduced glutathione:oxidized glutathione is a decrease in ischemic mitochondrial phospholipid content. During reperfusion, phosphatidylethanolamine and its major constituent fatty acids (C 18:0 and C 20:4) are specifically lost from the mitochondrial membrane. Accompanying the significant loss of arachidonic acid during reperfusion is the decreased content of 11-OH, 12-OH, and 15-OH arachidonate. These lipid peroxidation products are not increased in ischemia. It is proposed that oxidation of matrix glutathione to glutathione disulfide during ischemia results in formation of glutathione-protein mixed disulfides and inhibition of sulfhydryl-sensitive proteins, including acyl-CoA lysophosphatide acyltransferase. Thus, metabolic events occurring within the ischemic period set the stage for prolonged dysfunction during reperfusion.
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PMID:Protection by verapamil of mitochondrial glutathione equilibrium and phospholipid changes during reperfusion of ischemic canine myocardium. 362 93

The effects of extracellular fluid volume expansion on intestinal transport of salts and water were studied in dogs by perfusing loops of bowel in vivo. Saline loading caused depression of duodenal and jejunal absorption with net secretion of salt and water into the lumen. Studies of unidirectional transport of (22)Na(+) revealed that the negative net sodium flux was due primarily, and perhaps exclusively, to increased serosal to mucosal transport, for mucosal to serosal sodium transport was not changed during volume expansion. Net transport of water and potassium paralleled net sodium flux. Administration of deoxycorticosterone did not affect the intestinal response to saline loading. Hemodilution, accomplished by equilibrating the dogs' blood with a reservoir of saline, did not affect intestinal absorption, but isotonic, iso-oncotic expansion of the extracellular fluid produced by reinfusing the saline-blood mixture from the reservoir resulted in negative net transport of water, sodium, and potassium by the duodenum. It is suggested that the small bowel is capable of secreting salts and water through intercellular spaces, and that this process is stimulated by extracellular fluid volume expansion.
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PMID:Intestinal transport of water and electrolytes during extracellular volume expansion in dogs. 512 9

The purpose of this study was to examine proximal and distal tubular function in rats with nonoliguric, myohemoglobinuric acute renal failure (ARF). ARF was induced with glycerol (50%, 10 ml/kg of body wt, i.m.), and renal function was studied 24 hours after glycerol or saline (controls) injection. Glycerol injection caused a 50 to 90% depression in GFR and a significant rise in blood urea nitrogen concentration. Animals with ARF exhibited glycosuria with normal blood sugar levels and a striking depression in tubular glucose reabsorption per milliliter of GFR. The capacity to reabsorb (mEq/liter GFR) was intact at normal blood bicarbonate levels, but was markedly depressed when blood bicarbonate was raised. The tubular maximum for para-aminohippurate (PAH) secretion and the renal extraction fraction of PAH were strikingly depressed in rats with ARF. Distal acidification as assessed by the urine-to-blood gradient of PCO2 (UB PCO2) was normal both during maximal alkalinization of the urine with bicarbonate (urine pH, approximately 7.8) or during neural phosphate infusion (urine pH, approximately 7.0). Net acid excretion per milliliter GFR and minimal urine pH (less than 5.5) following 3 days of ammonium chloride ingestion was similar in control and ARF animals. Potassium excretion was intact in maximal urinary osmolality were significantly altered in animals with ARF. Cortical and outer medullary Na-K-ATPase specific activities were significantly depressed in ARF rats. This occurred as a consequence of enzyme loss and not secondary to alterations in enzyme kinetics of absolute tubular sodium reabsorption. Light and electron microscopy showed diffuse proximal tubular damage, whereas glomeruli and distal tubules were intact. These data demonstrate that glycerol injection produces a diffuse proximal tubular transport defect associated with histologic and enzymatic alterations.
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PMID:Renal tubular function in glycerol-induced acute renal failure. 678 13

The effects of intraluminal ethanol perfusion (3.0% and 6.0% vt/vol) on mucosal morphology, water transport, and regional blood flow were examined in in vivo jejunal segments of pentobarbital-anesthetized rabbits. Compared with control segments, ethanol-perfused segments exhibited morphological alterations of the mucosa consisting of subepithelial fluid accumulation (bleb formation), exfoliation of enterocytes, and vascular congestion. The prevalence of epithelial damage was significantly increased in the segments perfused with 6% ethanol. Net water transport was significant (p less than 0.025) depressed in segments perfused with 3.0% and 6.0% wt/vol ethanol. In animals in which the control segment was absorbing water, ethanol led to a depression in net water absorption or to the reversal of absorption to net secretion. In animals in which the control segment exhibited secretion, ethanol led to an enhanced net secretion. Blood flow through the total jejunal wall and through the luminal layer (consisting of mucosa plus submucosa) was significantly (p less than 0.05) increased by the presence of 3.0% and 6.0% wt/vol ethanol in the intestinal lumen. Blood flow in the external layer of the jejunum (consisting of muscularis plus serosa) did not change significantly. It therefore appears that the ethanol-induced alterations in jejunal mucosal morphology and water transport are accompanied by a localized mucosal or submucosal hyperemia, or both. However, a direct cause and effect relationship between these remains to be established.
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PMID:Effect of ethanol on jejunal regional blood flow in the rabbit. 684 57

Pregnant ewes were fed a depletion diet low in cobalt (0.06 ppm) for 3 1/2 months. Chronic catheters were implanted 8 weeks postpartum and 7 experiments were performed on these nonlactating vitamin B-12-depleted sheep (de-B12: 340 +/- 30 ng vitamin B-12 per gram wet liver) prior to repletion by intramuscular injection of hydroxocobalamin. Six experiments were then repeated after vitamin B-12 repletion (re-B12: 2220 +/- 50 ng vitamin B-12 per gram wet liver). The hepatic extraction ratios (HER) in continuously fed sheep were 0.81 and 0.77 for de-B12 and re-B12 corresponding to net hepatic uptakes of 460 +/- 50 and 440 +/- 40 mumol propionate per minute, respectively. Continuous infusion of unlabeled propionate into a mesenteric vein at 1 mmol/minute reduced the HER, yet this depression was greatest for re-B12 (0.74 vs. 0.63 for de-B12 and re-B12, respectively). Net hepatic uptake of propionate was increased (1145 +/- 100 vs. 985 +/- 95 mumol/minute, respectively), although vitamin B-12 status was without effect. It is concluded that the ability of liver to extract propionate is not affected at vitamin B-12 concentrations greater than 250 ng/g wet liver. However, when propionate entry rate was enhanced by intramesenteric infusion, the livers of de-B12 sheep had a greater capacity to remove propionate suggesting that alternate routes of metabolism may occur.
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PMID:Influence of vitamin B-12 status on hepatic propionic acid uptake in sheep. 685 14

Heart failure is associated with a reduction in tissue norepinephrine concentration, catecholamine fluorescence, and tyrosine hydroxylase activity. We hypothesized that this attrition of sympathetic nerve function might also be associated with a reduction in the ability of the neuronal membrane to sequester catecholamines. Since the heart does not release epinephrine, the cardiac extraction of epinephrine should be an index of the membrane uptake system. In 12 patients with documented left ventricular failure (pulmonary edema) secondary to mechanical overload and in 10 patients with no history of heart failure, we measured simultaneous plasma catecholamine concentrations in the aorta, coronary sinus, and femoral vein. The aortocoronary sinus extraction of epinephrine was 43 +/- 17% in the group with no evidence of heart failure but 0 +/- 14% in the group with failure. Net norepinephrine outflow (release minus extraction) was significantly higher in the group with failure, possibly because of reduced extraction. There was neither a reduction in the ability of the lower limb to extract epinephrine nor an increased norepinephrine outflow from the limb. These findings suggest that the sympathetic neuronal membrane uptake system is also depressed in the failing heart and that if the mechanism of catecholamine sequestration in the heart is related to that in the lower limb, the ablation of sympathetic nerve function is specific to the heart and is not a result of a generalized depression of the peripheral sympathetic nervous system.
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PMID:Reduced aortocoronary sinus extraction of epinephrine in patients with left ventricular failure secondary to long-term pressure or volume overload. 686 2

In vitro microperfusion was used to study the effect of low and high extracellular sodium concentrations on the transport capacity of the proximal convoluted tubule (PCT). Tubules from rabbit kidney were perfused with luminal and peritubular solutions containing 80, 115, 190, and 225 mM sodium. Control solutions contained 150 mM sodium. No ionic substitution was made and the proximal convoluted tubules were studied under hypo- or hypertonic conditions after a 20-min equilibration period. Sodium concentration was measured at 80, 150, and 225 mM sodium in the perfused and collected fluids and no significant difference was observed. Net sodium transport (JNa) remained relatively constant between 115 and 150 mM sodium. It decreased progressively at high sodium concentrations. Depression in JNa was also observed at 80 mM sodium. Fractional sodium reabsorption increased to 125.0% of control at 115 mM sodium and decreased to 69.4 and 40.1% at 190 and 225 mM sodium, respectively. At 80 mM, the results were not different from control. These findings indicate that at concentrations of 115-225 mM sodium the proximal convoluted tubule has the intrinsic capacity to regulate sodium transport.
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PMID:Proximal tubular response to variations in extracellular sodium concentration. 737 97

Pseudoisocytidine (psi ICyd) is a C-nucleoside with enhanced stability and resistance to enzymatic deamination when compared to 5-azacytidine and 1-beta-D-arabinofuranosylcytosine. Elimination kinetics in plasma using [14C]psi ICyd showed a beta-phase for t1/2 for 14C of 2 hr and a beta-phase t1/2 of unchanged psi ICyd of 1.5 hr. Net recovery of radioactivity in urine over 24 hr varied between 40 and 80% of the administered dose; 50 to 90% was unchanged drug and the rest was pseudouridine. Human leukemic cells in vitro deaminated psi ICyd very slowly, formed appreciable quantities of pseudoisocytidine triphosphate, and incorporated small amounts into RNA and DNA. Clinical trials were done using a daily i.v. injection for 5 consecutive days. Hematological or intestine toxicities were not seen, nor was depression of white blood cell count observed in leukemic patients. Hepatic toxicity proved to be dose limiting; this was characterized by an early phase with elevation of prothrombin time and aspartate aminotransferase. A later phase with cirrhosis was observed in two patients. Autopsy showed massive hepatic necrosis in patients dying of acute toxicity and micronodular cirrhosis in one patient dying with the chronic form.
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PMID:Biochemical, pharmacological, and phase I clinical evaluation of pseudoisocytidine. 747 Oct 64


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