Delayed cardioprotection by isoflurane: role of K ATP channels
Isoflurane mimics the cardioprotective effect of acute ischemic preconditioning with an acute memory phase. We determined whether isoflurane can induce delayed cardioprotection, the involvement of ATP-sensitive potassium (K ATP ) channels, and cellular location of the channels. Neonatal New Zealand...
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| Veröffentlicht in: | American journal of physiology. Heart and circulatory physiology 2002-07, Vol.283 (1), p.H61-H68 |
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| container_title | American journal of physiology. Heart and circulatory physiology |
| container_volume | 283 |
| creator | Tonkovic-Capin, Marija Gross, Garrett J. Bosnjak, Zeljko J. Tweddell, James S. Fitzpatrick, Colleen M. Baker, John E. |
| description | Isoflurane mimics the cardioprotective effect of acute ischemic preconditioning with an acute memory phase. We determined whether isoflurane can induce delayed cardioprotection, the involvement of ATP-sensitive potassium (K
ATP
) channels, and cellular location of the channels. Neonatal New Zealand White rabbits at 7–10 days of age ( n = 5–16/group) were exposed to 1% isoflurane-100% oxygen for 2 h. Hearts exposed 2 h to 100% oxygen served as untreated controls. Twenty-four hours later resistance to myocardial ischemia was determined using an isolated perfused heart model. Isoflurane significantly reduced infarct size/area at risk (means ± SD) by 50% (10 ± 5%) versus untreated controls (20 ± 6%). Isoflurane increased recovery of preischemic left ventricular developed pressure by 28% (69 ± 4%) versus untreated controls (54 ± 6%). The mitochondrial K
ATP
channel blocker 5-hydroxydecanoate (5-HD) completely (55 ± 3%) and the sarcolemmal K
ATP
channel blocker HMR 1098 partially (62 ± 3%) attenuated the cardioprotective effects of isoflurane. The combination of 5-HD and HMR-1098 completely abolished the cardioprotective effect of isoflurane (56 ± 5%). We conclude that both mitochondrial and sarcolemmal K
ATP
channels contribute to isoflurane-induced delayed cardioprotection. |
| doi_str_mv | 10.1152/ajpheart.01040.2001 |
| format | Article |
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ATP
) channels, and cellular location of the channels. Neonatal New Zealand White rabbits at 7–10 days of age ( n = 5–16/group) were exposed to 1% isoflurane-100% oxygen for 2 h. Hearts exposed 2 h to 100% oxygen served as untreated controls. Twenty-four hours later resistance to myocardial ischemia was determined using an isolated perfused heart model. Isoflurane significantly reduced infarct size/area at risk (means ± SD) by 50% (10 ± 5%) versus untreated controls (20 ± 6%). Isoflurane increased recovery of preischemic left ventricular developed pressure by 28% (69 ± 4%) versus untreated controls (54 ± 6%). The mitochondrial K
ATP
channel blocker 5-hydroxydecanoate (5-HD) completely (55 ± 3%) and the sarcolemmal K
ATP
channel blocker HMR 1098 partially (62 ± 3%) attenuated the cardioprotective effects of isoflurane. The combination of 5-HD and HMR-1098 completely abolished the cardioprotective effect of isoflurane (56 ± 5%). We conclude that both mitochondrial and sarcolemmal K
ATP
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ATP
) channels, and cellular location of the channels. Neonatal New Zealand White rabbits at 7–10 days of age ( n = 5–16/group) were exposed to 1% isoflurane-100% oxygen for 2 h. Hearts exposed 2 h to 100% oxygen served as untreated controls. Twenty-four hours later resistance to myocardial ischemia was determined using an isolated perfused heart model. Isoflurane significantly reduced infarct size/area at risk (means ± SD) by 50% (10 ± 5%) versus untreated controls (20 ± 6%). Isoflurane increased recovery of preischemic left ventricular developed pressure by 28% (69 ± 4%) versus untreated controls (54 ± 6%). The mitochondrial K
ATP
channel blocker 5-hydroxydecanoate (5-HD) completely (55 ± 3%) and the sarcolemmal K
ATP
channel blocker HMR 1098 partially (62 ± 3%) attenuated the cardioprotective effects of isoflurane. The combination of 5-HD and HMR-1098 completely abolished the cardioprotective effect of isoflurane (56 ± 5%). We conclude that both mitochondrial and sarcolemmal K
ATP
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ATP
) channels, and cellular location of the channels. Neonatal New Zealand White rabbits at 7–10 days of age ( n = 5–16/group) were exposed to 1% isoflurane-100% oxygen for 2 h. Hearts exposed 2 h to 100% oxygen served as untreated controls. Twenty-four hours later resistance to myocardial ischemia was determined using an isolated perfused heart model. Isoflurane significantly reduced infarct size/area at risk (means ± SD) by 50% (10 ± 5%) versus untreated controls (20 ± 6%). Isoflurane increased recovery of preischemic left ventricular developed pressure by 28% (69 ± 4%) versus untreated controls (54 ± 6%). The mitochondrial K
ATP
channel blocker 5-hydroxydecanoate (5-HD) completely (55 ± 3%) and the sarcolemmal K
ATP
channel blocker HMR 1098 partially (62 ± 3%) attenuated the cardioprotective effects of isoflurane. The combination of 5-HD and HMR-1098 completely abolished the cardioprotective effect of isoflurane (56 ± 5%). We conclude that both mitochondrial and sarcolemmal K
ATP
channels contribute to isoflurane-induced delayed cardioprotection.</abstract><doi>10.1152/ajpheart.01040.2001</doi></addata></record> |
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| source | American Physiological Society; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals |
| title | Delayed cardioprotection by isoflurane: role of K ATP channels |
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