内皮素-1在1型糖尿病大鼠心肌细胞功能障碍中的作用

Yanfeng Ding, Ruijiao Zou, Robert L. Judd, Dean D. Schwartz, Juming Zhong
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引用次数: 2

摘要

背景心脏并发症已被证明是糖尿病人群发病率和死亡率的主要原因。然而,糖尿病引起的心肌病的机制尚不清楚。我们验证了内皮素-1(ET-1)在糖尿病诱导的心室肌细胞功能障碍发病机制中发挥重要作用的假设。方法通过静脉注射链脲佐菌素(STZ)诱导糖尿病大鼠。通过用ET-1受体拮抗剂波生坦对大鼠进行慢性治疗来确定内皮素对糖尿病心肌病的潜在贡献。使用边缘检测/微荧光系统比较肌细胞收缩性和细胞内钙稳态。结果糖尿病大鼠心室肌细胞收缩能力明显下降,细胞内Ca2+([Ca2+]i)瞬时改变。另一方面,糖尿病心肌细胞的L型Ca2+通道活性没有改变。波生坦治疗成功地预防了糖尿病大鼠的心肌细胞收缩功能障碍和[Ca2+]i抑制,而不影响对照大鼠的肌细胞功能。波生坦对从对照和糖尿病大鼠获得的肌细胞的Ca2+通道活性没有影响。结论糖尿病动物ET-1升高在糖尿病引起的心肌细胞功能障碍中起重要作用。阻断ET-1受体可能是治疗糖尿病引起的心力衰竭的一种潜在的治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Contribution of endothelin-1 in cardiac myocyte dysfunction in Type 1 diabetic rats

Background

Cardiac complications have been demonstrated as a major cause of morbidity and mortality in the diabetic population. However, the mechanisms underlying diabetes-induced cardiomyopathy remain unclear. We tested the hypothesis that endothelin-1 (ET-1) plays an important role in diabetes-induced pathogenesis of ventricular myocyte dysfunction.

Methods

Diabetic rat was induced by an intravenous injection of streptozotocin (STZ). The potential contribution of endothelin to diabetic cardiomyopathy was determined by chronic treatment of rats with the ET-1 receptor antagonist, bosentan. Myocyte contractility and intracellular calcium homeostasis were compared using an edge detection/micro-fluorescent system.

Results

Ventricular myocytes isolated from diabetic rats exhibited significant depression in cell contractility and altered intracellular Ca2+ ([Ca2+]i) transient. On the other hand, L-type Ca2+ channel activity in diabetic myocytes was not altered. Bosentan treatment successfully prevented myocyte contractile dysfunction and [Ca2+]i depression in diabetic rats without affecting myocyte function from control rats. Bosentan had no effect on Ca2+ channel activity in myocytes obtained from both control and diabetic rats.

Conclusion

These data demonstrate that elevated ET-1 in diabetic animals plays an important role in the diabetes-induced cardiac myocyte dysfunction. Blockade of ET-1 receptor may be a potential therapeutic strategy in the treatment of diabetes-induced heart failure.

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