Battiprolu Pavan K, Rodnick Kenneth J
Department of Biological Sciences, Idaho State University, Pocatello, Idaho.
Department of Biological Sciences, Idaho State University, Pocatello, Idaho
Am J Physiol Heart Circ Physiol. 2014 Nov 15;307(10):H1401-11. doi: 10.1152/ajpheart.00755.2013. Epub 2014 Sep 12.
Cardiac tissue from female rainbow trout demonstrates a sex-specific preference for exogenous glucose and glycolysis, impaired Ca(2+) handling, and a greater tolerance for hypoxia and reoxygenation than cardiac tissue from male rainbow trout. We tested the hypothesis that dichloroacetate (DCA), an activator of pyruvate dehydrogenase, enhances cardiac energy metabolism and Ca(2+) handling in female preparations and provide cardioprotection for hypoxic male tissue. Ventricle strips from sexually immature fish with very low (male) and nondetectable (female) plasma sex steroids were electrically paced in oxygenated or hypoxic Ringer solution with or without 1 mM DCA. In the presence of 5 mM glucose, aerobic tissue from male trout could be paced at a higher frequency (1.79 vs. 1.36 Hz) with lower resting tension and less contractile dysfunction than female tissue. At 0.5 Hz, DCA selectively reduced resting tension below baseline values and lactate efflux by 75% in aerobic female ventricle strips. DCA improved the functional recovery of developed twitch force, reduced lactate efflux by 50%, and doubled citrate in male preparations after hypoxia-reoxygenation. Independent of female sex steroids, reduced myocardial pyruvate dehydrogenase activity and impaired carbohydrate oxidation might explain the higher lactate efflux, compromised function of the sarcoplasmic reticulum, and reduced mechanical performance of aerobic female tissue. Elevated oxidative metabolism and reduced glycolysis might also underlie the beneficial effects of DCA on the mechanical recovery of male cardiac tissue after hypoxia-reoxygenation. These results support the use of rainbow trout as an experimental model of sex differences of cardiovascular energetics and function, with the potential for modifying metabolic phenotypes and cardioprotection independent of sex steroids.
雌性虹鳟的心脏组织对外源葡萄糖和糖酵解表现出性别特异性偏好,钙(Ca2+)处理受损,并且与雄性虹鳟的心脏组织相比,对缺氧和复氧具有更高的耐受性。我们测试了这样一个假设:二氯乙酸(DCA),一种丙酮酸脱氢酶激活剂,可增强雌性制剂中的心脏能量代谢和钙(Ca2+)处理,并为缺氧的雄性组织提供心脏保护作用。将血浆性类固醇水平极低(雄性)和无法检测到(雌性)的未成熟鱼的心室条带在含或不含1 mM DCA的含氧或缺氧林格氏溶液中进行电刺激。在存在5 mM葡萄糖的情况下,雄性鳟鱼的有氧组织能够以比雌性组织更高的频率(1.79对1.36 Hz)进行刺激,静息张力更低,收缩功能障碍更少。在0.5 Hz时,DCA选择性地将有氧雌性心室条带的静息张力降低到基线值以下,并使乳酸流出减少75%。在缺氧-复氧后,DCA改善了雄性制剂中收缩力的功能恢复,使乳酸流出减少50%,并使柠檬酸增加一倍。与雌性性类固醇无关,心肌丙酮酸脱氢酶活性降低和碳水化合物氧化受损可能解释了有氧雌性组织中较高的乳酸流出、肌浆网功能受损以及机械性能降低。氧化代谢升高和糖酵解减少也可能是DCA对雄性心脏组织缺氧-复氧后机械恢复产生有益作用的基础。这些结果支持将虹鳟作为心血管能量学和功能性别差异的实验模型,具有独立于性类固醇改变代谢表型和提供心脏保护的潜力。