UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

N-dimethyl propranolol (UM-272) has been shown to protect the heart from injury produced by ischemia. In the present study we examined the effects of UM-272 on the function of isolated rabbit cardiac mitochondria and microsomes. Concentrations of 13 micrometers or below were without effect on these organelles. UM-272 (130 micrometers) significantly decreased respiratory control of mitochondria utilizing glutamate plus malate, or succinate, as substrates. At 1.3 mM, UM-272 increased the initial rate of basal oxygen consumption, and decreased the rate of ADP-stimulated respiration. UM-272 was slightly more potent than d,1-propranolol. At a concentration of 1.3 mM, UM-272 significantly decreased the rate and maximum amount of 45CaCl2 accumulated by microsomes in the presence of ATP and oxalate. Concentrations of drug that suppress cellular metabolism are close to those required to prevent ischemic injury. We suggest that sarcolemmal and intracellular actions of the drug which help to depress oxygen demand and ATP utilization may account for part of the drug's protective effects.
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PMID:Effects of N-dimethyl propranolol (UM-272) on isolated cardiac mitochondria and microsomes. 49 13

In mammalian myocardium, muscle contraction is regulated by the rapid release of Ca2+ ions through ryanodine-sensitive Ca2+ release channels present in the intracellular membrane compartment, sarcoplasmic reticulum (SR). In this study, the effects of regional ischemia on intrinsic SR Ca2+ release channel function were determined by studying the Ca2+ transport and release, and [3H]ryanodine binding properties of whole muscle homogenates and SR-enriched membrane fractions from normal and ischemic myocardium. Measurement of oxalate-supported 45Ca(2+)-uptake rates before and after pretreatment with 1 mM ryanodine, indicated that the SR Ca2+ release channel retained its ability to be effectively closed by the channel-specific probe ryanodine after 15 and 60 min of ischemia. 45Ca2+ efflux from, and high-affinity [3H]ryanodine binding to SR-enriched vesicle fractions indicated retention of regulation of Ca2+ release channel activity by Ca2+, Mg2+ and adenine nucleotide in 15 and 60 min ischemic samples. Further, sodium dodecylsulfate polyacrylamide gel and immunoblot analysis revealed no proteolytic degradation of the M(r) 565,000 SR Ca2+ release channel polypeptide after 15 and 60 min of ischemia. These results suggested a minimal, if any, loss of intrinsic SR Ca2+ release channel function in ischemic hearts.
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PMID:Effects of regional ischemia on the ryanodine-sensitive Ca2+ release channel of canine cardiac sarcoplasmic reticulum. 133 60

Calcium was localized ultrastructurally with the use of the modified oxalate-pyroantimonate reaction in the CA1 region of rat hippocampal slices. Ten-minute ischemia (incubation with anoxic and glucose-free medium) followed by 30 min reoxygenation resulted in mitochondrial calcium sequestration and ultrastructural damage. The addition of the adenosine receptor antagonist, theophylline, worsened the ischemia-induced morphological changes and particularly exaggerated the Ca2+ loading in the postsynaptic dendrites. In contrast, adenosine protected against ischemia-induced changes. The results suggest that adenosine exerts its neuroprotective action largely by maintaining intracellular calcium-homeostasis.
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PMID:Ultrastructural localization of calcium in ischemic hippocampal slices: the influence of adenosine and theophylline. 156 44

The effect of normothermic ischemia and ischemia/reperfusion on the function of cardiac sarcoplasmic reticulum (CSR) was investigated using a modified Langendorff perfusion of isolated rat hearts. The function of the CSR was assessed by the oxalate-supported Ca2+ uptake rate of ventricular homogenates. The contribution of the ryanodine-sensitive portion of the CSR was determined by using 20 microM ruthenium red or 625 microM ryanodine to close the CSR Ca2+ release channel. The Ca2+ uptake rate of the CSR decreased progressively with increasing duration of ischemia, but this depression was much less when uptake was assayed in the presence of ryanodine. The depression in CSR Ca2+ uptake preceded ischemic contracture. Ryanodine and ruthenium red stimulated uptake almost equally in control hearts, but ruthenium red was much less effective than ryanodine after ischemia. This difference could not be overcome by increasing the ruthenium red concentration. These results confirm the suggestion that the Ca2+ release channel is inappropriately opened after ischemia. The CSR uptake rates were almost completely restored at 15 minutes of reperfusion after 5 and 10 minutes of ischemia but were only partially restored after 15 minutes of ischemia. At reperfusion, mechanical function (end-diastolic pressure and peak systolic developed pressure) was markedly depressed after only 15 minutes of ischemia. The degree of "stunning" correlated well with the depression of CSR function in individual hearts. The decreased Ca2+ uptake of the CSR was not due to a buildup of ADP in the homogenates.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reversibility of the effects of normothermic global ischemia on the ryanodine-sensitive and ryanodine-insensitive calcium uptake of cardiac sarcoplasmic reticulum. 172 84

The effect of ischemia on the function of cardiac sarcoplasmic reticulum (SR) was assessed by the calcium uptake rate of rat whole-heart homogenates in the presence of 10 mM oxalate. Previous studies have shown that this uptake is restricted to the SR. The contribution of the ryanodine-sensitive fractions of the SR to the total homogenate uptake was assessed by using 20 microM ruthenium red and 625 microM ryanodine to close the SR calcium release channel under previously established optimal conditions. Global ischemia of 10, 15, 30, and 60 minutes depressed homogenate calcium uptake rate 19 +/- 2%, 50 +/- 6%, 65 +/- 3%, and 81 +/- 5%, respectively. This decrease was not observed when the uptake rates were measured after closure of the calcium channel with ryanodine or ruthenium red. Similar results were obtained with a Langendorff in vitro perfusion preparation, in which calcium uptake was decreased 35 +/- 5%, 37 +/- 8%, 58 +/- 7%, and 64 +/- 4% after 10, 15, 30, and 60 minutes of ischemia, but no significant decrease was observed when homogenate uptake rates were measured in the presence of ryanodine. Thus, ischemia caused a depression in the calcium uptake rate of cardiac SR only when this activity was measured in the absence of SR calcium channel blockers. Reperfusion of ischemic hearts in a Langendorff preparation resulted in recovery of homogenate calcium uptake activity that correlated well with the return to sinus rhythm of the reperfused hearts. These reperfused hearts showed no change in the calcium uptake rate measured in the presence of ryanodine. These results suggest that the decrease in homogenate calcium uptake caused by ischemia is not due to a defect in calcium pumping capabilities but is due to an increased efflux through the ryanodine-sensitive calcium release channel of cardiac SR.
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PMID:Differential effect of global ischemia on the ryanodine-sensitive and ryanodine-insensitive calcium uptake of cardiac sarcoplasmic reticulum. 247 12

Transient ischemia does not induce myocardial necrosis but may be associated with prolonged contractile dysfunction ("stunned" myocardium). It has been suggested that alteration of the excitation-contraction coupling system (sarcoplasmic reticulum) could be responsible for this phenomenon. We tested this hypothesis by characterizing sarcoplasmic reticulum (SR) function in an isolated rat heart model of "stunned" myocardium (hearts reperfused after 10 min of normothermic global ischemia). At the end of the ischemic period oxalate-supported Ca-uptake was depressed either in the whole homogenate or in isolated SR (to 47% and 22% of control values, respectively). During reperfusion Ca-uptake of the whole heart homogenate recovered almost completely whereas slight but significant depression persisted in isolated SR (48 +/- 2 vs 67 +/- 4 nmol/min x mg, P less than 0.01). In the presence of ruthenium red or ryanodine, two inhibitors of SR Ca-release channels, Ca-uptake was stimulated. Both in the whole heart homogenate and in isolated SR, such stimulation was remarkably smaller after reperfusion than in control conditions (P less than 0.001) suggesting reduced conductivity state of the SR Ca-release channels. Ca-stimulated, magnesium-dependent ATPase activity was remarkably reduced during ischemia and postischemic reperfusion induced only incomplete recovery (93 +/- 18 vs 169 +/- 14 nmol ATP/min x mg protein, P less than 0.05). We conclude that complex modifications of SR function occur in the "stunned" myocardium and could contribute to the contractile impairment found in this condition.
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PMID:Sarcoplasmic reticulum function in the "stunned" myocardium. 247 59

Employing two types of brain ischemic animal models, an attempt was made to evaluate the protective effect of naftidrofuryl as the normalizing effect on the ischemia-induced changes in the brain levels of monoamines and metabolites. 1) During 2 min ligation of both left and right common carotid arteries of mice, dopamine (DA) content alone significantly decreased among three monoamines and four metabolites measured by a high performance liquid chromatography-electrochemical detection method. Pretreatment with naftidrofuryl oxalate (45 mg/kg, i.p.) was found to prevent the DA change, but the lower dose (15 mg/kg, i.p.) of the drug or any other drug tested individually (vinpocetine hydrochloride: 2 mg/kg, Ca hopantenate: 0.1 g/kg, citicoline: 0.1 g/kg, i.p.) had no such effect. 2) Infusion of carbon microsphere (500 particles/100 microliters of 20% dextran/1.5 min/rat) into the right internal carotid artery induced various degree of time-dependent changes in the behavior and also in the brain levels of monoamines and metabolites. Embolized rats which otherwise would survive for at least 6 d after infusion, were divided into the lightly-infarcted and severely-infarcted groups by grading the behavioral abnormality. Subsequent treatments with naftidrofuryl oxalate (15 mg/kg, i.p., twice daily, totally 4 times) which was begun 16 h after microsphere injection, was found to accelerate the recovery rate of brain dopamine level once decreased by the embolism though only in the lightly-infarcted group. The significance of the results obtained herein were discussed in relation to the clinical effectiveness of naftidrofuryl in human brain ischemic diseases.
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PMID:Ischemia-induced changes in brain levels of monoamines and their metabolites of mice and rats: some protective effects of naftidrofuryl. 259 84

Using the oxalate-pyroantimonate technique ultrastructural localization of Ca2+ was determined in the nucleus supraopticus, the nucleus paraventricularis and in the neurohypophysis after complete cerebral ischemia. We observed an increased calcium accumulation in mitochondria of some neurons. Calcium precipitate was also found in vesicles, in cytoplasm of neurons and their swollen dendritic processes. Abundant Ca2+ precipitate occurred in synaptic vesicles and within synaptic cleft. It was present between disjuncted lamellae of the myelin sheath in profiles of myelinated axons present in neuropil. Diffuse precipitate was visible in the cytoplasm of pituicytes, as well as in microvesicles in the neurohypophysis. The possible role of calcium in ischemia is briefly discussed.
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PMID:Cytochemical calcium localization in hypothalamo-neurohypophysial system of rats after ischemia. Preliminary observations. 262 94

A 55-year-old woman with chronic renal failure treated with hemodialysis had severe bilateral visual loss develop due to retinal ischemia. Ophthalmoscopy showed crystals in the distribution of the retinal arteries, but not veins, and this led to a diagnosis of systemic oxalosis. Factors contributing to systemic oxalosis in addition to renal failure were ascorbic acid dietary supplementation, pyridoxine deficiency, and ileal resection. Histopathologic findings showed ocular calcium oxalate deposition limited nearly entirely to the walls of retinal blood vessels.
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PMID:Retinal oxalosis. A clinicopathologic report. 281 86

Normothermic global ischemia of 7, 10, 15 and 60 min was found to depress oxalate supported calcium uptake rate measured either in unfractionated homogenates or isolated sarcoplasmic reticulum. The degree of depression increased with the duration of ischemia. Comparison of the isolated sarcoplasmic reticulum with unfractionated homogenates showed that the isolated sarcoplasmic reticulum was more damaged by ischemia than the unfractionated homogenate. The cause of this discrepancy was not due to inactivation of sarcoplasmic reticulum during isolation but was due to the discard of greater portions of undamaged sarcoplasmic reticulum as the ischemic period increased. Ischemia preferentially affected that sarcoplasmic reticulum most easily fragmented by homogenization. To determine if the depression of sarcoplasmic reticulum function is uniform throughout the isolated fraction, we compared several properties of the isolated fractions. After 10 min of ischemia, extensive properties such as calcium oxalate uptake rate, calcium ATPase rate, calcium oxalate capacity and steady-state calcium loading were depressed 50, 41, 48 and 24% respectively. In contrast, intensive properties such as permeability, calcium-ATPase turnover rate, and ratio of forward nucleotide flux to reverse nucleotide flux were unaffected by ischemia. However, one intensive property, the coupling ratio, was depressed 20%. We conclude from this difference in the effects of ischemia on extensive and intensive properties that the major effect of ischemia is to inactivate the Ca-ATPase.
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PMID:Effects of ischemia on the isolation and function of canine cardiac sarcoplasmic reticulum. 294 2

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