线粒体 SUR2A 剪接变体的心脏过表达会损害雌性小鼠的心脏功能并加重心肌缺血再灌注损伤

Allison C. Wexler , Holly Dooge , Sarah El-Meanawy , Elizabeth Santos , Timothy Hacker , Aditya Tewari , Francisco J. Alvarado , Mohun Ramratnam
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引用次数: 0

摘要

磺脲受体蛋白异构体 2 A 的小剪接变体(SUR2A-55)以线粒体为靶标,能增强线粒体 KATP 的活性。在雄性小鼠中,该蛋白的过表达可促进心脏保护,减少缺血损伤后的心肌损伤。然而,目前还不清楚 SUR2A-55 的过表达对雌性心肌有什么影响。为了研究 SU2R2A-55 对雌性心脏的影响,研究人员通过静息超声心动图和组织病理学检查了心脏特异性转基因过表达 SUR2A-55 (TGSUR2A-55)的小鼠。此外,还对心脏进行了缺血再灌注(IR)损伤。雌性TGSUR2A-55小鼠静息时左心室功能障碍,IR损伤后血流动力学恢复较差,梗死面积增大。RNA-seq分析发现,WT和TGSUR2A-55雌性小鼠心脏中有227个不同表达的基因富集在细胞代谢通路中。这与雄性小鼠只有 4 个差异表达基因形成了鲜明对比。与雌性 WT 小鼠相比,雌性 TGSUR2A-55 小鼠的心肌细胞线粒体膜电位降低,但电子传递链蛋白的表达没有变化。此外,从雌性 TGSUR2A-55 心脏分离出的线粒体对 ATP 和重氮氧化物的敏感性降低,表明线粒体 KATP 活性增加。总之,我们的数据表明,雌性 TGSUR2A-55 小鼠无法耐受更活跃的线粒体 KATP 通道,导致左心室功能障碍和对红外损伤的反应更差。这与我们之前的报告显示雄性小鼠在心脏中过表达 SUR2A-55 会保护心脏形成了鲜明对比。未来针对不同性别的线粒体 KATP 亚基表达和活性的研究可能会阐明针对男性和女性患者的不同治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cardiac overexpression of a mitochondrial SUR2A splice variant impairs cardiac function and worsens myocardial ischemia reperfusion injury in female mice

Cardiac overexpression of a mitochondrial SUR2A splice variant impairs cardiac function and worsens myocardial ischemia reperfusion injury in female mice

The small splice variant of the sulfonylurea receptor protein isoform 2 A (SUR2A-55) targets mitochondria and enhances mitoKATP activity. In male mice the overexpression of this protein promotes cardioprotection, reducing myocardial injury after an ischemic insult. However, it is unclear what impact SUR2A-55 overexpression has on the female myocardium. To investigate the impact of SU2R2A-55 on the female heart, mice with cardiac specific transgenic overexpression of SUR2A-55 (TGSUR2A-55) were examined by resting echocardiography and histopathology. In addition, hearts were subjected to ischemia reperfusion (IR) injury. Female TGSUR2A-55 mice had resting LV dysfunction and worse hemodynamic recovery with increased infarct size after IR injury. RNA-seq analysis found 227 differential expressed genes between WT and TGSUR2A-55 female mouse hearts that were enriched in pathways of cellular metabolism. This was in direct contrast to male mice that had only four differentially expressed genes. Female TGSUR2A-55 mice compared to female WT mice had reduced cardiomyocyte mitochondrial membrane potential without a change in electron transport chain protein expression. In addition, isolated mitochondria from female TGSUR2A-55 hearts displayed reduced sensitivity to ATP and diazoxide suggestive of increased mitoKATP activity. In conclusion, our data suggests that female TGSUR2A-55 mice are unable to tolerate a more active mitoKATP channel leading to LV dysfunction and worse response to IR injury. This is in direct contrast to our prior report showing cardioprotection in male mice overexpressing SUR2A-55 in heart. Future research directed at examining the expression and activity of mitoKATP subunits according to sex may elucidate different treatments for male and female patients.

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Journal of molecular and cellular cardiology plus
Journal of molecular and cellular cardiology plus Cardiology and Cardiovascular Medicine
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