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Energy deficiency, calcium overload or oxidative stress: Possible causes of irreversible ischemic myocardial injury (1989)

Piper, H. M.

Springer

Journal of molecular medicine 67 (1989), S. 465-476

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ISSN: 1432-1440

Keywords: Myocardial ischemia ; Reperfusion injury ; Oxygen paradox ; Contracture ; Calcium ; Oxygen radicals ; ATP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary After prolonged ischemia or hypoxia myocardial injury is not reversed but exacerbated by a resupply of the tissue with oxygen and substrates. The mechanism by which reversible ischemic or hypoxic myocardial injury becomes irreversible is not yet understood. It has been debated whether “reperfusion injury” merely uncovers pre-existing irreversible injury, or is indeed caused by the reperfusion/reoxygenation process. In recent years, three theories have been discussed that relate the onset of irreversibility either to: a critical energy loss; a critical accumulation of cellular calcium; or to the deleterious effects of free radical formation. In certain experimental models for each of these theories favourable results have been obtained. Current research suggests that absolute reversibility thresholds in energy depletion or calcium accumulation in the ischemic or hypoxic cell do not exist. A key role of free radical injury for reperfusion injury must also be questioned. There is, however, evidence that in tissue reversibility of ischemic cardiomyocyte injury is limited by conditions that make calcium-induced hypercontracture upon reoxygenation unavoidable. This occurs when, by hypercontracture, mutual mechanical disruption of the cells destroys the tissue. From isolated cardiomyocytes that are able to metabolically survive hypercontracture it has been observed that these metabolic conditions do not represent the last biological possibility to reverse injury.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01721672

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Single voltage-dependent and outward rectifying K+-channels in isolated rat heart cells (1985)

Schreibmayer, W. ; Tritthart, H. A. ; Zernig, G. ; [et al.]

Springer

European biophysics journal 11 (1985), S. 259-263

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ISSN: 1432-1017

Keywords: K+-channels ; patch-clamp ; heart

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract Studies on single K+-channel currents recorded from isolated rat heart muscle cells, in which early repolarization is known to be exceptionally fast, are reported here. A K+-channel which is blocked by TEA (tetraethylammonium) from the inside only has been found. The total open time of the channel, measured in steady-state after activation, indicated outward rectifying properties. The single channel conductance increases with depolarization from 25 pS at-70 mV to 75 pS at+70 mV. Selectivity of the channel has also been measured and it was found that only Rb+ and K+ can permeate the channel, whereas the permeability (P) for Li+, Na+, Cl-, Mg2+, and Ca2+ is less than 0.05 times $${\text{P}}_{{\text{K}}^{\text{ + }} } $$ . Ba2+ and Cs+ block the channel activity. These results clearly demonstrate the existence of K+-selective outward rectifying conductance pathways in rat ventricular myocytes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00262003

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Fatty acids are not an important fuel for coronary microvascular endothelial cells (1989)

Spahr, R. ; Krützfeldt, A. ; Mertens, S. ; [et al.]

Springer

Molecular and cellular biochemistry 88 (1989), S. 59-64

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ISSN: 1573-4919

Keywords: substrate oxidation ; fatty acids ; glycolysis ; Crabtree effect ; microvascular endothelial cells ; coronary system

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Summary The metabolism by coronary microvascular endothelial cells (CMEC) of the heart typical substrates palmitate and lactate was compared to that of glucose and glutamine. Confluent cultures of CMEC were used. Palmitate oxidation was saturable and independent of the exogenous albumin concentration. Palmitate, 300 μM, lactate, 1 mM, and glutamine, 0.5 mM, were oxidized to 35, 46, and 56 nmol CO2/h × mg protein. These oxidation rates were decreased by 80, 66, and 48% in presence of 5 mM glucose. The largest energy yield was obtained by glycolytic breakdown of glucose. Glucose, 5 mM, was degraded to lactate by 99%, and oxidized in the Krebs cycle by only 0.04%. 1% was catabolized via the hexose monophosphate pathway. The rate of glucose oxidation in the Krebs cycle could be 30-fold increased by the uncoupler 2,4-dinitrophenol, 30 µM. At concentrations lower than 1 mM the amount of glucose oxidized in the Krebs cycle also grew, indicating existence of the Crabtree effect. The energy demand of CMEC seems to be of the same order as that of the arrested heart.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00223424

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The use of the creatine kinase reaction to determine free energy change of ATP hydrolysis in anoxic cardiomyocytes (1989)

Siegmund, B. ; Koop, A. ; Piper, H. M.

Springer

Pflügers Archiv 413 (1989), S. 435-437

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ISSN: 1432-2013

Keywords: Anoxia ; adult cardiomyocytes ; creatine kinase ; free energy change ; ATP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In isolated cardiomyocytes from adult rat heart the free energy change of ATP hydrolysis (dG) was determined under conditions of substrate-free anoxia. Changes of free cytosolic ADP concentrations, needed for the calculation of dG, were determined by two indirect methods since a direct measurement is not feasible: (i) via the mass action ratio of the creatine kinase reaction (CK) assuming near equilibrium conditions, and (ii) via quantification of the net hydrolysis of ATP to ADP by a detailed balancing of possible contribution to Pi production. Both approaches gave virtually identical results, showing that in anoxia only 6% of the ATP hydrolysed are hydrolysed to ADP and 94% completely to adenosine and further degradation products. The convergence of both methods also indicates that in this model the CK reaction is indeed catalysed near its equilibrium. Therefore estimations of free ADP and dG using its mass action ratio are valid. In anoxic cardiomyocytes dG values fell from 57 kJ/mol in normoxia to 42 kJ/mol after 120 min anoxia, corresponding to a decrease of ATP contents from 24 to 4 nmol/mg protein.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584495

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The role of fatty acids in ischemic tissue injury: difference between oleic and palmitic acid (1986)

Piper, H. M. ; Das, A.

Springer

Basic research in cardiology 81 (1986), S. 373-383

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ISSN: 1435-1803

Keywords: myocardial ischemia ; long-chain fatty acids ; high-energy phosphates ; anacrobic glycolysis ; enzyme release

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Guinea pig hearts were subjected to low-flow perfusion (0.3 ml/g fresh weight/min) with an oxygen depleted perfusate. Fatty acids (palmitic or oleic acid), added to the perfusate, accelerated in a dose-dependent manner the anoxic decay of creatine phosphate and ATP, impaired lactate production and augmented enzyme release (lactate dehydrogenase, malate dehydrogenase). Palmitic and olcic acid, however, differed distinctly in their deleterious effect, this being greater for oleic acid. After 60 min anoxic low-flow perfusion with 11 mM glucose and 0.2 mM of either fatty acid, complexed in 5∶1 molar relationship to albumin, the creatine phosphate content with palmitate is 39% greater than with oleate, the ATP content 23%, lactate production 15% greater, and release of malate dehydrogenase 24% lower, but the elevated contents of long-chain acyl CoA and acyl carnitine are not significantly different for the two fatty acids. These results accord with earlier experiences on subcellular systems showing that the physicochemical effects of the oleyl residue are more harmful than those of the palmityl residue.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01907458

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A new method for studying the incorporation of nonesterified fatty acids into cardiac lipids by using deuterium-labelled palmitate (1988)

Hütter, J. F. ; Schweickhardt, Ch. ; Hunneman, D. H. ; [et al.]

Springer

Basic research in cardiology 83 (1988), S. 87-93

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ISSN: 1435-1803

Keywords: nonesterifiedfatty acids ; myocardiallipids ; stable-isotope-labelledfatty acids ; cholesterol esters ; mass fragmentography

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A new method for measuring the incorporation of exogenous fatty acids into myocardial lipids of working rat hearts using deuterium-labelled palmitate has been developed. After perfusing isolated hearts, the fatty acid composition of triglycerides, diglyccrides, monoglycerides, cholesterol esters, and nonesterified fatty acids (NEFA) was measured by a mass fragmentographic method. Hearts perfused only with 5 mM glucose and 1 mM lactate perfusion as basic substrates showed a significant decrease of triglyceride content, while the other lipids were not found to be significantly reduced. The fatty acid composition of all lipids were not affccted. An addition of D31-palmitate complexed to albumin at a molar ratio of 5∶1, caused a dose-dependent incorporation into triglycerides and diglycerides which suggested saturation kinetics. The tissue content of nonesterified D31-palmitate was found to be linearly related to its concentration in the perfusate. It may be of note that the concentration of the other NEFA was significantly affected neither by a fatty-acid-free perfusion nor by a perfusion with D31-palmitate. A significant incorporation of the supplied fatty acid into cholesterol esters and monoglycerides could not be detected.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01907108

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