Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Changes in tissue lactate, ATP, and cytosolic free calcium (Cai) were examined in isolated, perfused rat hearts receiving 20 min of zero-flow global ischemia (37 degrees C). Addition of diltiazem before ischemia caused a concentration-dependent decrease in lactate accumulation. This effect was not mediated by modulation of norepinephrine release since depletion of catecholamines by reserpine did not alter lactate accumulation, and diltiazem treatment reduced lactate accumulation in catecholamine-depleted hearts. Diltiazem-treated hearts showed a concentration-dependent decrease in tissue ATP utilization that was associated with the decrease in tissue lactate during ischemia. Basal time averaged Cai, determined by fluorine NMR using 5FBAPTA, was 620 nM. Diltiazem (0.9 microM) decreased this value to 489 nM and reduced heart rate and maximum pressure developed (81.3 and 53.9% of control, respectively) before ischemia. Cai increased fourfold between 9 and 15 min of ischemia in hearts receiving no drug, while there was no increase in Cai in diltiazem-treated hearts. These results show that diltiazem reduces the use of ATP and therefore production of lactate during ischemia, and indicate a relationship between preservation of ATP and maintenance of Cai that may be important in the beneficial effects of diltiazem during myocardial ischemia.
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PMID:Effects of diltiazem on lactate, ATP, and cytosolic free calcium levels in ischemic hearts. 168 81

We have investigated hypertension-associated alterations in intracellular cations in the kidney by measuring intracellular pH, free Mg2+, free Ca2+, and Na+ concentrations in perfused normotensive and hypertensive rat (8-14 weeks old) kidneys using 31P, 19F, and double quantum-filtered (DQ) 23Na NMR. The effects of both anoxia and ischemia on the 23Na DQ signal confirmed its ability to detect changes in intracellular Na+. However, there was a sizable contribution of the extracellular Na+ to the 23Na DQ signal of the kidney. The intracellular free Ca2+ concentration, measured using 19F NMR and 5,5'difluoro-1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid, also increased dramatically during ischemia; the increase could be partly reversed by reperfusion. No significant differences were found between normotensive and hypertensive kidneys in the ATP level, intracellular pH, intracellular free Mg2+, and the 23Na DQ signal or in the extent of the extracellular contribution to the 23Na DQ signal. Oxygen consumption rates were also similar for the normotensive (5.02 +/- 0.46 mumol of O2/min/g) and hypertensive (5.47 +/- 0.42 mumol O2/min/g) rat kidneys. The absence of a significant difference in intracellular pH, Na+ concentration, and oxygen consumption between normotensive and hypertensive rat kidneys suggests that an alteration in the luminal Na+/H+ antiport activity in hypertension is unlikely. However, a highly significant increase (64%, p less than 0.01) in free Ca2+ concentration was found in perfused kidneys from hypertensive rats (557 +/- 48 nM, blood pressure = 199 +/- 5 mmHg, n = 6) compared with normotensive rats (339 +/- 21 nM, blood pressure = 134 +/- 6, n = 4) indicating altered renal calcium homeostasis in essential hypertension. An increase in intracellular free Ca2+ concentration without an accompanying change in the intracellular Na+ suggests, among many possibilities, that the Ca2+/Mg(2+)-ATPase may be inhibited in the hypertensive renal tissue.
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PMID:Multinuclear NMR studies of intracellular cations in perfused hypertensive rat kidney. 174 Apr 16

The hypothesis that substrate availability can alter contractile function in reperfused myocardium after global ischemia was investigated in this study. Isolated rabbit hearts were placed in a dual tuned (31P/13C) NMR probe with a 9.4-T magnet and perfused with the following substrates given individually or in combination: 10 mM glucose, 2 mM palmitate, and 2.5 mM [3-13C]pyruvate. Glucose was the sole substrate present for all groups of hearts before the onset of 10 or 20 minutes of zero-flow ischemia. Contractility (dP/dt) was significantly higher in hearts reperfused with glucose compared with hearts reperfused with palmitate or the combination. In addition, myocardial oxygen consumption/unit of work at reperfusion was more efficient with glucose than with palmitate. ATP content during reperfusion was similar with glucose and palmitate and did not account for improved function with glucose. To determine if inhibition of pyruvate metabolism by palmitate might result in altered postischemic function, additional hearts were reperfused with 2.5 mM [3-13C]pyruvate provided alone or in combination with palmitate. Using 13C NMR spectroscopy, it was shown that with the addition of palmitate, pyruvate oxidation was decreased in control and 10-minute ischemic hearts as is consistent with inhibition of pyruvate dehydrogenase by fatty acids. However, palmitate/pyruvate did not worsen postischemic function as compared with palmitate or pyruvate alone. Tricarboxylic acid cycle activity was slowed in reperfused pyruvate hearts, but no further reduction was observed when palmitate was present. In conclusion, palmitate reduces the mechanical function of the reperfused isolated rabbit heart as compared with glucose. This effect of palmitate does not appear to be caused by suppression of pyruvate oxidation or by a change in high energy phosphate content.
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PMID:Fatty acid metabolism and contractile function in the reperfused myocardium. Multinuclear NMR studies of isolated rabbit hearts. 174 64

The effect of phosphoenolpyruvate (PEP) on energy metabolism of ischemic liver was examined in anesthetized rats. In vivo 31P-NMR spectroscopy (31P-MRS) was used to monitor cellular energy metabolism. Hepatic ischemia was induced by temporarily clamping the portal vein for 60 minutes. The liver adenosine triphosphate (ATP) levels decreased remarkably during ischemia, and they gradually increased after ischemia but did not return to pre-operative levels. PEP effectively increased the levels of ATP. The ATP levels of the PEP-treated rats were significantly higher than those of the control rats, and also intracellular acidosis was improved during post-ischemic reperfusion. These findings suggest that PEP may have a cytoprotective effect and improve the energy metabolism in the ischemic liver.
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PMID:Effect of phosphoenolpyruvate on energy metabolism of ischemic liver in anesthetized rats--31P-MRS study. 178 80

Oxygen radical toxicity has been implicated in the pathogenesis of myocardial reperfusion injury. In the present study we sought to document the existence of a precise temporal relationship between the time course of free radical generation and the time course of alterations of myocardial energy metabolism during early reperfusion. Rabbit hearts perfused within the bore of a 31-Phosphorous NMR spectrometer were subjected to 30 min of total global ischemia at 37 degrees C. At reflow, 12 control hearts received a bolus of normal perfusate and 12 hearts recombinant human superoxide dismutase (h-SOD) as a 60,000 IU bolus followed by a 100 IU/ml infusion for 15 min. Ischemia resulted in similar depletion of tissue ATP and phosphocreatine (PCr) in the two groups. During the first minute of reflow, recovery of PCr was similar in both groups. However, PCr recovery arrested in control hearts after 2 min, at 63% of baseline, and averaged 64 +/- 4% after 45 min of reperfusion. In contrast, h-SOD treated hearts recovered 86.7% of baseline PCr content after 2 min, 102% after 10 min of reperfusion (P less than 0.001), and 93 +/- 6.4% at the end of the 45 min of reflow (P less than 0.01). The time course of free radical formation during reperfusion was assessed by EPR spectroscopy using both the frozen tissue and the spin trapping methodologies. In control hearts, peak generation of oxygen radicals was reached after 20 s of reflow. h-SOD treatment decreased concentrations of the oxygen-centered radicals in myocardial tissue and of the radical-adducts in the coronary effluent by approximately 80%. Thus, in reperfused hearts peak oxygen radical generation is followed by the occurrence of alterations in the recovery of high energy phosphate metabolism. Both events were largely prevented by administration of h-SOD at reflow. These results provide strong support for a link between oxygen free radical generation and post-ischemic reperfusion injury.
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PMID:The relationship between oxygen radical generation and impairment of myocardial energy metabolism following post-ischemic reperfusion. 181 Oct 55

Myocardial glycogen and the factors which primarily regulate its metabolism were studied during post-ischemic reperfusion. Myocardial [13C]glycogen was continuously monitored by 13C-NMR spectroscopy in beating rat hearts perfused with oxygenated solutions containing [1-13C]glucose (5 mM) and insulin, during normal flow at 15 ml/min (n = 5), and during reperfusion after 30 min of 1 ml/min (n = 5), or 0 ml/min (n = 4) ischemia. Mean myocardial [13C]glycogen fell during reperfusion from 1.1 +/- 0.6 at the end of zero-flow ischemia to 0.4 +/- 0.4 mumol of [13C]glucosyl units/g wet wt (P less than 0.02) over the first 7 min of reperfusion; it also fell during reflow following 1 ml/min ischemia, from 2.3 +/- 1.4 to 1.7 +/- 1.0 mumol (P less than 0.03) over the same interval. In parallel experiments, glycogen phosphorylase % a (GPA%) content was higher at the end of 30 min of 0 ml/min (37.3 +/- 7.3%, P less than 0.01), and trended higher after 1 ml/min flow (30.8 +/- 12.1%, P = 0.18) than under baseline conditions (20.1 +/- 7.4%). However GPA% returned to baseline values within 1 min of reflow after both 0 and 1 ml/min ischemic periods (20.6 +/- 3.0% and 19.0 +/- 8.0%, respectively). Inorganic phosphate, as determined by simultaneous 31P-NMR, remained elevated during early reperfusion relative to baseline, and significantly correlated with the extent of decline in [13C]glycogen during reperfusion (r = 0.79, P less than 0.01). Thus, glycogen breakdown continues to occur during early post-ischemic reperfusion, but the mechanism is not related to elevated GPA%, and may be due to persistently increased inorganic phosphate at that time.
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PMID:Regulation of myocardial glycogenolysis during post-ischemic reperfusion. 181 Oct 61

Brain Mg2+ ion concentrations, [Mg2+], were evaluated in three groups of animals subjected to either 8 minutes (n = 10), or 12 minutes (n = 10) of near-complete forebrain ischemia, or sham operation (n = 10), from their 31P NMR spectra. No significant differences were observed in [Mg2+] among sham operated animals prior to or at any time point after surgery. In the 8-min ischemia group, mean [Mg2+] were significantly lower at 48 (0.28 +/- 0.06 mM, p = 0.014) and 72 (0.29 +/- 0.07 mM, p = 0.005) hours post-ischemia when compared to their mean pre-ischemia levels (0.39 +/- 0.08 mM). [Mg2+] was restored to pre-ischemia values at 96 hours after induction of ischemia. In the 12 min ischemia group, [Mg2+] were lower at all time points post-ischemia when compared to their pre-ischemia levels. Our data shows that forebrain ischemia causes a chronic decline of cerebral Mg2+ concentration, and the observed reduction of this cation can be partially attributed to concurrent brain tissue alkalosis.
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PMID:Chronic changes in the brain Mg2+ concentration after forebrain ischemia in the rat. 181 93

The observability of nucleoside triphosphate (NTP) by 31P NMR spectroscopy was studied in the isolated rat liver during hypothermic perfusion and a subsequent 4-h cold ischemia. The influence of hypothermia (4 degrees C) was examined because of its delaying effects on cell injury induced by the ischemic conditions. The viability of the liver after hypothermic ischemia was assessed by measuring the recovery of the beta-NTP resonance after reperfusion. In 4-h cold ischemic liver, recovery was found to be in the range of 90-100% and consequently NTP visibility was studied under these conditions. Because the individual purine (or pyrimidine) NTPs are not distinguishable in the liver on the basis of their 31P NMR chemical shifts, the contributions of UTP and GTP were investigated by HPLC. The changes in liver NTP content measured either by NMR on isolated liver or by HPLC after perchloric acid extraction from the same organ are not significantly different. The total NTP level in normothermic perfused liver is 7.6 +/- 0.2 mumol NTP/g liver dry wt as determined by NMR. In such a liver, ATP + GTP + UTP and ATP contents measured by HPLC are, respectively, 7.9 +/- 1.0 and 6.3 +/- 0.9 mumol/g liver dry wt. This indicates that all NTP is detected by NMR and that a 20% contribution of the signal occurs from UTP + GTP. Under 4-h cold ischemic conditions, NTP visibility remains unchanged, furthermore the UTP + GTP contribution reaches 32% of the whole NTP content.(ABSTRACT TRUNCATED AT 250 WORDS)
NMR Biomed 1991 Dec
PMID:Is cellular integrity responsible for the partial NMR invisibility of ATP in isolated ischemic rat liver? 181 6

Hepatic failure often occurs following transplantation. This is primarily due to cold ischemia during preservation, warm ischemia during implantation, and finally reperfusion damage after transplantation and reflow. The possibility that this ischemia and reperfusion-induced damage can be reduced by preischemic application of a xanthine derivative (pentoxiphylline) was examined using 31P NMR spectroscopy and electron microscopy (EM) studies of bioenergetic and ultrastructural changes in oxygenated erythrocyte-perfused rat livers. EM illustrated that the hepatocytes and the mitochondria appeared to be relatively unaffected by cold preservation of the liver, whereas the endothelial cells lining the sinusoids became disrupted. After reperfusion, NMR spectroscopy showed a partial recovery of ATP levels, and EM indicated progressive mitochondrial injury. This progressive injury to the liver was probably due to endothelial cell damage which resulted in microcirculatory malfunction and free radical formation during reperfusion. Pentoxiphylline pretreated livers showed better preservation of the cell morphology and exhibited better ATP recovery than untreated livers. Pentoxiphylline is known to prevent the loss of precursors of ATP resynthesis by inhibiting AMP dephosphorylation during ischemia and improves the microcirculation via vasodilatory properties following ischemia. Thus, it is concluded that pentoxiphylline may ameliorate ischemia-induced cell damage during transplantation.
NMR Biomed 1991 Dec
PMID:Effect of pentoxiphylline on the recovery of the preserved rat liver: 31P NMR and ultrastructural studies. 181 7

The linear prediction z-transform method (LPZAR) was applied to estimate 31P NMR spectra of perfused rat hearts. The spectra obtained by the LPZAR method showed sharper peaks with less noise for phosphate concentrations than those obtained by conventional fast Fourier transform. The LPZAR method provided a better estimation of intracellular phosphate concentrations in short acquisition time experiments in which condition Fourier transform spectra are not suitable for the quantification due to the poor resolution of FFT spectra. Utilizing the LPZAR method, rapid changes in phosphoric metabolites of the heart can be monitored during ischemia followed by reperfusion.
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PMID:Phosphorus-31 NMR spectra by the linear prediction z-transform method. 182 Jun 63


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