Skeletal muscle contractile function is impaired during acute ischemia such as that experienced by peripheral vascular disease patients. We therefore, examined the effects of dichloroacetate, which can alter resting metabolism, on canine gracilis muscle contractile function during constant flow ischemia. Pretreatment with dichloroacetate increased resting pyruvate dehydrogenase complex activity and resting acetylcarnitine concentration by ف 4-and ف 10-fold, respectively. After 20-min contraction the control group had demonstrated an ف 40% reduction in isometric tension whereas the dichloroacetate group had fatigued by ف 25% ( P Ͻ 0.05). Dichloroacetate resulted in less lactate accumulation (
The BH3 domains of pro-apoptotic proteins are sufficient to trigger cytochrome c release, caspase activation and apoptosis. These results support a model in which pro-apoptotic proteins, such as Bax and Bak, bind to Bcl-2 via their BH3 domains, inactivating the normal ability of Bcl-2 to suppress apoptosis. The ability of synthetic peptides to reproduce the effect of pro-apoptotic BH3 domains suggests that such peptides may provide the basis for engineering reagents to control the initiation of apoptosis.
The metabolic effects of partial ischemia on canine skeletal muscle were examined during 20 min of isometric contraction. A reduction in blood flow of approximately 75% resulted in an approximate 40% reduction in contractile function. Muscle lactate accumulation and phosphocreatine (PCr) hydrolysis were greater during ischemia, indicating a greater reliance on anaerobic ATP regeneration. Pyruvate dehydrogenase transformation to its active form (PDCa) during contraction was not affected by ischemia, such that PDCa did not appear to be a determinant of skeletal muscle fatigue. Acetylcarnitine concentration was greater during ischemic contraction and inversely correlated with PCr concentration (r = -0.79, P<0.01). Furthermore, acetylcarnitine accumulation and PCr degradation correlated with the degree of skeletal muscle fatigue (r = 0.56, P<0.05 and r = 0.70, P<0.01, respectively). Thus the greater the acetyl group oxidation, the lesser the contribution from anaerobic ATP provision and, subsequently, the smaller the degree of muscle fatigue observed. The metabolic characteristics of this model of ischemic muscle contraction are indistinguishable from the normal metabolic responses observed with increasing contractile intensity.
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