Accelerated recovery of postischemic stunned myocardium after induced expression of myocardial heat-shock protein (HSP70)

Byline: Barbara L. Robinson, Terumasa Morita, David O. Toft, James J. Morris Abstract: In vitro studies suggest that interventions targeted at myocardial gene regulation of endogenous cytoprotective elements, such as heat-shock protein, may attenuate myocardial ischemic injury. We tested the hypothesis that heat shock-induced expression of myocardial heat-shock protein before ischemia accelerates functional recovery of postischemic stunned myocardium in the intact circulation. Sixteen dogs underwent partial femoral arteriovenous bypass and core temperature was raised to 42[degrees] C for 15 minutes in eight dogs (heat-shocked) and maintained at 37[degrees] C in eight dogs (nonheat-shocked). After 24 hours dogs were studied to measure myocardial segment length in the circumflex artery region with ultrasonic dimension transducers, left ventricular pressure with a micromanometer, and circumflex coronary flow with an ultrasonic probe. Regional contractile function was quantified by the area beneath the linear preload recruitable stroke work relationship at baseline and at intervals during reperfusion after a 15-minute circumflex artery occlusion followed by 3 hours of reperfusion. Baseline and peak reperfusion hyperemic circumflex flows were 37 [+ or -] 9 ml/min and 154 [+ or -] 33 ml/min, respectively, in heat-shocked dogs (p < 0.001) and 46 [+ or -] 24 ml/min and 171 [+ or -] 57 ml/min, respectively, in nonheat-shocked dogs (p < 0.001), with no differences between groups (p = not significant) at any time during reperfusion. Heart rate and left ventricular peak pressure, end-diastolic pressure, and first derivative of left ventricular pressure were similar (all p = not significant) in heat-shocked and nonheat-shocked dogs during ischemia and reperfusion. Before ischemia, preload recruitable stroke work relationship did not differ (p = not significant) in heat-shocked and nonheat-shocked dogs. Ischemia reduced preload recruitable stroke work relationship to 32% [+ or -] 8% control (p < 0.001) in heat-shocked dogs and to 19% [+ or -] 15% control in nonheat-shocked dogs (p < 0.001) at 15 minutes of reperfusion, indicating a similar (p = not significant) initial degree of injury. During 3 hours of reperfusion, preload recruitable stroke work relationship returned to 80% [+ or -] 38% control in heat-shocked dogs but to only 33% [+ or -] 13% control in nonheat-shocked dogs (p < 0.0001). Myocardial expression of heat-shock protein, quantified by optical densitometry of Western blots using an antibody specific for HSP70, was greater in heat-shocked than in nonheat-shocked dogs (108 [+ or -] 27 versus 71 [+ or -] 14 densitometry units, p < 0.005). Exact causal mechanisms remain to be defined, but these data indicate (1) hyperthermic bypass triggers induction of myocardial heat-shock protein and (2) elevated myocardial heat-shock protein is associated with accelerated recovery of stunned myocardium. Promotion of endogenous molecular cytoprotective systems represents a novel and potentially useful strategy for myocardial protection. (J THORAC CARDIOVASC SURG 1995;109:753-64) Author Affiliation: Rochester, Minn. Article Note: (footnote) [star] From the Division of Thoracic and Cardiovascular Surgery and the Department of Biochemistry and Molecular Biology, Mayo Clinic and Foundation, Rochester, Minn., [star][star] Read at the Twentieth Annual Meeting of The Western Thoracic Surgical Association, Olympic Valley, Calif., June 22-25, 1994., a Address for reprints: James J. Morris, MD, Division of Thoracic and Cardiovascular Surgery, Mayo Clinic and Foundation, 200 1st St. SW, Rochester, MN 55905., aa 0022-5223/95 $3.00 + 0, acents 12/6/62043