Skyschally Andreas, Gres Petra, Hoffmann Simone, Haude Michael, Erbel Raimund, Schulz Rainer, Heusch Gerd
Institute of Pathophysiology, Center of Internal Medicine, University of Essen Medical School, Germany.
Circ Res. 2007 Jan 5;100(1):140-6. doi: 10.1161/01.RES.0000255031.15793.86. Epub 2006 Dec 14.
In patients with unstable angina, plaque rupture and coronary microembolization (ME) can precede complete coronary artery occlusion and impending infarction. ME-induced microinfarcts initiate an inflammatory reaction with increased tumor necrosis factor-alpha (TNF-alpha) expression, resulting in progressive contractile dysfunction. However, TNF-alpha is not only a negative inotrope but can also protect the myocardium against infarction. In anesthetized pigs, we studied whether ME protects against infarction when TNF-alpha expression is increased. ME (group1; n=7) was induced by intracoronary infusion of microspheres (42 microm; 3000 per mL/min inflow). Controls (group 2; n=8) received saline. Groups 3 and 4 (n=4 each) were pretreated with ovine TNF-alpha antibodies (25 mg/kg body weight) 30 minutes before ME or placebo, respectively. Ischemia (90 minutes) was induced 6 hours after ME when TNF-alpha was increased (66+/-21 pg/g wet weight; mean+/-SEM) or after placebo (TNF-alpha, 21+/-10 pg/g; P<0.05). Infarct size (percentage area at risk) was determined after 2 hours of reperfusion (triphenyl tetrazolium chloride staining). ME decreased systolic wall thickening progressively over 6 hours (group 1 versus group 2, 65+/-4% versus 90+/-1%; percentage of baseline; P<0.05). TNF-alpha antibodies attenuated the progressive decrease in systolic wall thickening following ME (group 3, 77+/-5% of baseline; P<0.05 versus group 1) with no effect in controls (group 4; 90+/-8% of baseline). With ME, infarct size was decreased to 18+/-4% versus 33+/-4% in group 2 (P<0.05). The infarct size reduction was abolished by TNF-alpha antibodies (group 3 versus group 4, 29+/-3% versus 35+/-5%). In ME, TNF-alpha is responsible for both progressive contractile dysfunction and delayed protection against infarction.
在不稳定型心绞痛患者中,斑块破裂和冠状动脉微栓塞(ME)可先于冠状动脉完全闭塞和即将发生的梗死。ME诱导的微梗死引发炎症反应,肿瘤坏死因子-α(TNF-α)表达增加,导致进行性收缩功能障碍。然而,TNF-α不仅是一种负性肌力药物,还可保护心肌免受梗死。在麻醉猪中,我们研究了当TNF-α表达增加时ME是否具有心肌保护作用。通过冠状动脉内注入微球(42μm;3000个/mL/分钟流速)诱导ME(第1组;n = 7)。对照组(第2组;n = 8)给予生理盐水。第3组和第4组(每组n = 4)分别在ME或安慰剂前30分钟用羊抗TNF-α抗体(25mg/kg体重)预处理。在ME后6小时(此时TNF-α增加,为66±21pg/g湿重;平均值±标准误)或安慰剂后(TNF-α为21±10pg/g;P<0.05)诱导缺血90分钟。再灌注2小时后(用氯化三苯基四氮唑染色)测定梗死面积(危险区域的百分比)。ME使收缩期室壁增厚在6小时内逐渐降低(第1组与第2组,65±4%对90±1%;相对于基线的百分比;P<0.05)。TNF-α抗体减弱了ME后收缩期室壁增厚的逐渐降低(第3组,相对于基线的77±5%;与第1组相比P<0.05),对对照组无影响(第4组;相对于基线的90±8%)。发生ME时,梗死面积降至18±4%,而第2组为33±4%(P<0.05)。TNF-α抗体消除了梗死面积的减小(第3组与第4组,29±3%对35±5%)。在ME中,TNF-α既导致进行性收缩功能障碍,又具有延迟的心肌保护作用。
