Title of article
Influence of Bretschneiderʹs Cardioplegia on Norepinephrine Release from Isolated Perfused Guinea-pig Hearts
Author/Authors
Stefan Horst Gerber، نويسنده , , Caroline Heyer، نويسنده , , Carsten Krüger، نويسنده , , Siegfried Hagl، نويسنده , , Wolfgang Kübler، نويسنده , , Markus Haass، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1999
Pages
11
From page
89
To page
99
Abstract
It was the aim of the present study to investigate the influence of Bretschneiderʹs cardioplegia on norepinephrine (NE) release [determined by high pressure liquid chromatography (HPLC) and electrochemical detection] in isolated perfused guinea-pig hearts. The following resulted were noted. (1) Calcium-dependent exocytotic NE release evoked by electrical field stimulation (12 Hz, 1 min) was completely suppressed after only 3 min of normothermic (37.5°C) Bretschneiderʹs cardioplegia. (2) Stop-flow ischemia is associated with a substantial calcium-independent, non-exocytotic NE release, which is regarded as a sodium-dependent carrier-mediated process. Accordingly, it is inhibited by blockers of the sodium/proton-exchanger (e.g. amiloride) and the neuronal uptake1-carrier (e.g. desipramine). Compared with stop-flow ischemia alone, cardioplegia with 3 min of Bretschneiderʹs histidine-tryptophan-ketoglutarate (HTK)-solution preceding stop-flow enhanced NE release at all stop-flow durations (10–90 min) investigated (e.g. after 30 min of normothermic Bretschneiderʹs cardioplegia: 1070±41 pmol/g,n=45,vstop-flow alone: 764±48 pmol/g,n=27,P<0.05). The NE concentrations determined in the cardiac effluent upon reperfusion followed a typical first order kinetic indicating that the transmitter release had already occurred during stop-flow. Hypothermia reduced NE release in a temperature-dependent manner down to intramyocardial temperatures of 27.5°C. NE release evoked by Bretschneiderʹs cardioplegia still exceeded that induced by stop-flow ischemia alone by up to 60%. The NE release evoked by Bretschneiderʹs cardioplegia and stop-flow ischemia was calcium-independent. However, it was significantly reduced by desipramine and amiloride, but both agents had a more pronounced inhibitory effect on NE release evoked by stop-flow ischemia alone. (3) This difference may be due to an intrinsic effect of Bretschneiderʹs HTK-solution, as continuous administration of normothermic Bretschneiderʹs HTK-solution induced a substantial NE release which was neither calcium-dependent nor inhibited by blockade of either uptake1or sodium/proton-exchange. It is concluded that Bretschneiderʹs cardioplegia is not neuroprotective, as it even augments the stop-flow ischemia-induced non-exocytotic NE release.
Keywords
Sodium/proton exchange , Uptake1-carrier. , Bretschneider’s cardioplegia , Stop-flow ischemia , Calcium , Isolated perfusedguinea-pig heart , Exocytotic norepinephrine release , Non-exocytotic norepinephrine release
Journal title
Journal of Molecular and Cellular Cardiology
Serial Year
1999
Journal title
Journal of Molecular and Cellular Cardiology
Record number
526154
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