Eguchi Akiyo, Iwasaku Toshihiro, Okuhara Yoshitaka, Naito Yoshiro, Mano Toshiaki, Masuyama Tohru, Hirotani Shinichi
Division of Cardiovascular Medicine, Hyogo College of Medicine, Nishinomiya, Hyogo, Japan.
Division of Cardiovascular Medicine, Hyogo College of Medicine, Nishinomiya, Hyogo, Japan.
Int J Cardiol. 2016 Oct 15;221:302-9. doi: 10.1016/j.ijcard.2016.07.034. Epub 2016 Jul 6.
In contrast to loop diuretics, tolvaptan does not cause neurohormonal activation in several animal heart failure models. However, it remains unknown whether chronic vasopressin type 2 receptor blockade exerts beneficial effects on mortality in murine heart failure after myocardial infarction (MI). In an experimental heart failure model, we tested the hypothesis that tolvaptan reduces myocardial remodeling and mortality.
MI was induced in 9-week-old male C57Bl6/J by the left coronary artery ligation. In study 1, animals were randomly assigned to treatment with placebo or tolvaptan starting 14days post-MI. In study 2, animals were randomized to tolvaptan or furosemide+tolvaptan starting 14days post-MI. Interestingly, results showed lower survival rate in tolvaptan group compared to placebo. Tolvaptan group had higher serum osmolality, heavier body weight, more severe myocardial remodeling, and lung congestion at day 28 of drug administration compared to placebo. In study 2, addition of furosemide significantly reduced mortality rate seen with tolvaptan, and presented with decreased osmolality, myocardial remodeling, and lung congestion compared to tolvaptan-treated mice. Increase in proximal tubular expression of aquaporin 1, Angiotensin II, and vasopressin seen with tolvaptan treatments were normalized to basal levels, similar to levels in placebo-treated mice.
Contrary to our hypothesis, tolvaptan was associated with increased mortality in murine heart failure after MI. This increase in lung congestion, myocardial remodeling, could be prevented by co-administration of furosemide, which resulted in normalized serum osmolality, neurohormonal activation, and renal aquaporin 1 expression, and hence decreased mortality post-MI.
与袢利尿剂不同,在几种动物心力衰竭模型中,托伐普坦不会引起神经激素激活。然而,慢性血管加压素2型受体阻断对心肌梗死后(MI)小鼠心力衰竭死亡率是否具有有益作用仍不清楚。在一个实验性心力衰竭模型中,我们检验了托伐普坦可减少心肌重构和死亡率这一假设。
通过结扎左冠状动脉,在9周龄雄性C57Bl6/J小鼠中诱导MI。在研究1中,动物在MI后14天开始被随机分配接受安慰剂或托伐普坦治疗。在研究2中,动物在MI后14天开始被随机分配接受托伐普坦或呋塞米+托伐普坦治疗。有趣的是,结果显示托伐普坦组的生存率低于安慰剂组。与安慰剂组相比,在给药第28天时,托伐普坦组血清渗透压更高、体重更重、心肌重构更严重且有肺充血。在研究2中,添加呋塞米显著降低了托伐普坦组的死亡率,并且与托伐普坦治疗的小鼠相比,血清渗透压、心肌重构和肺充血均有所减轻。托伐普坦治疗后近端肾小管水通道蛋白1、血管紧张素II和血管加压素表达的增加恢复至基础水平,与安慰剂治疗小鼠的水平相似。
与我们的假设相反,托伐普坦与MI后小鼠心力衰竭死亡率增加相关。这种肺充血、心肌重构的增加可通过联合使用呋塞米来预防,联合使用呋塞米可使血清渗透压、神经激素激活和肾水通道蛋白1表达恢复正常,从而降低MI后的死亡率。
