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首页> 美国卫生研究院文献>Springer Open Choice >Myosin heavy chain and cardiac troponin T damage is associated with impaired myofibrillar ATPase activity contributing to sarcomeric dysfunction in Ca2+-paradox rat hearts
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Myosin heavy chain and cardiac troponin T damage is associated with impaired myofibrillar ATPase activity contributing to sarcomeric dysfunction in Ca2+-paradox rat hearts

机译:肌球蛋白重链和心肌肌钙蛋白T损伤与肌原纤维ATPase活性受损有关导致Ca2 +悖论大鼠心脏的肌节功能障碍

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This study aimed to explore the potential contribution of myofibrils to contractile dysfunction in Ca2+-paradox hearts. Isolated rat hearts were perfused with Krebs–Henseleit solution (Control), followed by Ca2+-depletion, and then Ca2+-repletion after Ca2+-depletion (Ca2+-paradox) by Langendorff method. During heart perfusion left ventricular developed pressure (LVDP), end-diastolic pressure (LVEDP), rate of pressure development (+ dP/dt), and pressure decay (-dP/dt) were registered. Control LVDP (127.4 ± 6.1 mmHg) was reduced during Ca2+-depletion (9.8 ± 1.3 mmHg) and Ca2+-paradox (12.9 ± 1.3 mmHg) with similar decline in +dP/dt and –dP/dt. LVEDP was increased in both Ca2+-depletion and Ca2+-paradox. Compared to Control, myofibrillar Ca2+-stimulated ATPase activity was decreased in the Ca2+-depletion group (12.08 ± 0.57 vs. 8.13 ± 0.19 µmol Pi/mg protein/h), besides unvarying Mg2+ ATPase activity, while upon Ca2+-paradox myofibrillar Ca2+-stimulated ATPase activity was decreased (12.08 ± 0.57 vs. 8.40 ± 0.22 µmol Pi/mg protein/h), but Mg2+ ATPase activity was increased (3.20 ± 0.25 vs. 7.21 ± 0.36 µmol Pi/mg protein/h). In force measurements of isolated cardiomyocytes at saturating [Ca2+], Ca2+-depleted cells had lower rate constant of force redevelopment (k tr,max, 3.85 ± 0.21) and unchanged active tension, while those in Ca2+-paradox produced lower active tension (12.12 ± 3.19 kN/m2) and k tr,max (3.21 ± 23) than cells of Control group (25.07 ± 3.51 and 4.61 ± 22 kN/m2, respectively). In biochemical assays, α-myosin heavy chain and cardiac troponin T presented progressive degradation during Ca2+-depletion and Ca2+-paradox. Our results suggest that contractile impairment in Ca2+-paradox partially resides in deranged sarcomeric function and compromised myofibrillar ATPase activity as a result of myofilament protein degradation, such as α-myosin heavy chain and cardiac troponin T. Impaired relaxation seen in Ca2+-paradoxical hearts is apparently not related to titin, rather explained by the altered myofibrillar ATPase activity.
机译:本研究旨在探讨肌原纤维对Ca 2 + -悖论心脏收缩功能障碍的潜在作用。用Krebs–Henseleit溶液(对照组)灌注离体的大鼠心脏,然后消耗Ca 2 + ,然后在Ca 2+之后补充Ca 2 + 用Langendorff方法消除-消耗(Ca 2 + -悖论)。在心脏灌注期间,记录左心室发育压力(LVDP),舒张末期压力(LVEDP),压力发展速率(+ dP / dt)和压力衰减(-dP / dt)。 Ca 2 + -消耗(9.8±1.3mmHg)和Ca 2 + -悖论(12.9±1.3mmHg)减少时对照LVDP(127.4±±6.1mmHg)降低+ dP / dt和–dP / dt下降。 Ca 2 + -消耗和Ca 2 + -悖论中的LVEDP均升高。与对照组相比,耗竭Ca 2 + 组的肌原纤维Ca 2 + 刺激的ATPase活性降低(12.08±0.57 vs.8.13±0.19μmolPi / mg蛋白/ h),除了不变的Mg 2 + ATPase活性外,Ca 2 + -悖论肌原纤维Ca 2 + 刺激的ATPase活性降低(12.08±0.57比8.40±0.22μmolPi / mg蛋白/ h),但Mg 2 + ATPase活性增加(3.20±±0.25 vs.7.21±0.36μmolPi / mg蛋白/ h) 。在孤立的心肌细胞[Ca 2 + ]饱和状态下进行力测量时,耗尽了Ca 2 + 的细胞的力重建速率常数较低(k tr,max,3.85±0.21 )和不变的主动张力,而Ca 2 + -悖论中的那些产生较低的主动张力(12.12±3.19 kN / m 2 )和k tr,max(3.21±23) ),而对照组的细胞数则分别为(25.07±3.51和4.61±22 kN / m 2 )。在生化分析中,α-肌球蛋白重链和心肌肌钙蛋白T在Ca 2 + 耗尽和Ca 2 + -悖论期间呈逐步降解的趋势。我们的研究结果表明,Ca 2 + -悖论中的收缩损伤部分归因于肌节蛋白功能紊乱和肌原纤维ATPase活性受损,这是肌丝蛋白降解的结果,例如α-肌球蛋白重链和心肌肌钙蛋白T。在Ca 2 + 悖论性心脏中观察到的松弛减弱显然与替丁无关,而可以通过肌原纤维ATPase活性的改变来解释。

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