氧化还原信号传导在预处理的再灌注阶段而非缺血阶段触发保护作用。
Redox signaling triggers protection during the reperfusion rather than the ischemic phase of preconditioning.
作者信息
Dost Turhan, Cohen Michael V, Downey James M
机构信息
Dept. of Physiology, MSB 3074, University of South Alabama, College of Medicine, Mobile, AL, 36688, USA.
出版信息
Basic Res Cardiol. 2008 Jul;103(4):378-84. doi: 10.1007/s00395-008-0718-z. Epub 2008 Mar 17.
In ischemic preconditioning (IPC) brief ischemia/reperfusion renders the heart resistant to infarction from any subsequent ischemic insult. Protection results from binding of surface receptors by ligands released during the preconditioning ischemia. The downstream pathway involves redox signaling as IPC will not protect in the presence of a free radical scavenger. To determine when in the IPC protocol the redox signaling occurs, seven groups of isolated rabbit hearts were studied. All hearts underwent 30 min of coronary branch occlusion and 2 h of reperfusion. IPC groups were subjected to 5 min of regional ischemia followed by 10 min of reperfusion prior to the 30-min coronary occlusion. The Control group had only the 30-min occlusion and 2-h reperfusion. In the second group IPC preceded the index coronary occlusion. The third group was also preconditioned, but the free radical scavenger N-2-mercaptopropionyl glycine (MPG 300 microM) was infused during the 10-min reperfusion and therefore was present in the myocardium in the distribution of the snared coronary artery during the entire reperfusion phase and also during the subsequent 30-min ischemia. In another preconditioned group MPG was added to the perfusate before the preconditioning ischemia and therefore was present in the tissue only during the preconditioning ischemia and then was washed out during reperfusion. In the fifth group MPG was added to the perfusate for only the last 5 min of the preconditioning reperfusion and therefore was present in the tissue during the last minutes of the reperfusion phase and the 30 min of ischemia. In an additional group of IPC hearts MPG was infused for only the initial 5 min of the preconditioning reperfusion and then allowed to wash out so that the scavenger was present for only the first half of the reperfusion phase. Infarct and risk zone sizes were measured by triphenyltetrazolium staining and fluorescent microspheres, resp. IPC reduced infarct size from 31.3 +/- 2.7% of the ischemic zone in control hearts to only 8.4 +/- 1.9%. MPG completely blocked IPC's protection in the third (39.4 +/- 2.8%) and sixth (36.1 +/- 7.7%) groups but did not affect its protection in groups 4 (8.1 +/- 1.5%) or 5 (7.8 +/- 1.1%). When deoxygenated buffer was used during IPC's reperfusion phase in the seventh group of hearts, protection was lost and infarct size was increased over that seen in control hearts (74.5 +/- 9.0%). Hence redox signaling occurs during the reperfusion phase of IPC, and the critical component in that reperfusion phase appears to be molecular oxygen.
在缺血预处理(IPC)中,短暂的缺血/再灌注可使心脏对随后任何缺血性损伤引起的梗死具有抗性。保护作用源于预处理缺血期间释放的配体与表面受体的结合。下游途径涉及氧化还原信号传导,因为在存在自由基清除剂的情况下IPC不会起到保护作用。为了确定在IPC方案中氧化还原信号传导发生的时间,对七组离体兔心脏进行了研究。所有心脏均经历30分钟的冠状动脉分支闭塞和2小时的再灌注。IPC组在30分钟冠状动脉闭塞之前先进行5分钟的局部缺血,然后再灌注10分钟。对照组仅进行30分钟的闭塞和2小时的再灌注。在第二组中,IPC在指数冠状动脉闭塞之前进行。第三组也进行了预处理,但在10分钟的再灌注期间注入了自由基清除剂N-2-巯基丙酰甘氨酸(MPG 300 microM),因此在整个再灌注阶段以及随后的30分钟缺血期间,MPG存在于圈套冠状动脉分布区域的心肌中。在另一组预处理组中,在预处理缺血之前将MPG添加到灌注液中,因此仅在预处理缺血期间存在于组织中,然后在再灌注期间被冲洗掉。在第五组中,仅在预处理再灌注的最后5分钟将MPG添加到灌注液中,因此在再灌注阶段的最后几分钟和30分钟缺血期间存在于组织中。在另一组IPC心脏中,仅在预处理再灌注的最初5分钟注入MPG,然后使其被冲洗掉,以便清除剂仅在再灌注阶段的前半段存在。梗死面积和危险区大小分别通过三苯基四氮唑染色和荧光微球进行测量。IPC将梗死面积从对照心脏缺血区的31.3±2.7%降低至仅8.4±1.9%。MPG在第三组(39.4±2.8%)和第六组(36.1±7.7%)中完全阻断了IPC的保护作用,但在第四组(8.1±1.5%)或第五组(7.8±1.1%)中未影响其保护作用。在第七组心脏的IPC再灌注阶段使用脱氧缓冲液时,保护作用丧失,梗死面积比对照心脏增加(74.5±9.0%)。因此,氧化还原信号传导发生在IPC的再灌注阶段,并且该再灌注阶段的关键成分似乎是分子氧。
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