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在 Dahl 盐敏感大鼠从心脏肥大向心力衰竭转变过程中的机械能量改变。

Mechanoenergetic alterations during the transition from cardiac hypertrophy to failure in Dahl salt-sensitive rats.

作者信息

Kameyama T, Chen Z, Bell S P, VanBuren P, Maughan D, LeWinter M M

机构信息

Cardiology Unit, Department of Medicine, The University of Vermont College of Medicine, Burlington, Vt.

出版信息

Circulation. 1998;98(25):2919-29. doi: 10.1161/01.cir.98.25.2919.

Abstract

BACKGROUND

The time course and mechanisms of altered mechanoenergetics and depressed cross-bridge cycling in hypertrophied and failing myocardium are uncertain.

METHODS AND RESULTS

We studied mechanoenergetics in Dahl salt-sensitive (DS) rats fed high-salt diet (HS) for 6 (HS-6) and 12 (HS-12) weeks to produce compensated hypertrophy and failure. The slope of the end-systolic pressure-volume relation (E'max) was similar in HS-6 and low-salt controls (LS-6), but reduced in HS-12 compared with controls (LS-12). Efficiency [1/slope of oxygen consumption (&f1;O2)-pressure-volume area (PVA) relation] was similar in HS-6 and LS-6 but higher in HS-12 versus LS-12 (59+/-16% versus 44+/-7%, P<0.05). Economy [1/slope of the force-time integral (FTI)-&f1;O2 relation] was similar in HS-6 and LS-6 but higher in HS-12 versus LS-12 (218+/-123 versus 74+/-39x10(3) g. s. mL O2-1. g; P<0.05). Compared with controls, myofibrillar ATPase activity was reduced by 24% in HS-6 and 44% in HS-12. V3 Isomyosin was increased in HS-6 (40+/-12% versus 9+/-8%; P<0.05) and further increased in HS-12 (76+/-10% versus 22+/-18%; P<0.05). Hypothyroid LS-12 rats had 100% V3 isomyosin, yet efficiency, economy, and ATPase values were intermediate between LS-12 and HS-12. HS-12 rats demonstrated increased troponin T3 isoform (17+/-2 versus 23+/-2%, P<0.05). There were no changes in troponin I or tropomyosin isoforms. However, the proportion of phosphorylated troponin T was reduced in HS-12 versus LS-12 hearts (P<.001).

CONCLUSIONS

In DS rats, the transition to failure is associated with depressed E'max and increased efficiency and economy. These findings are linked to myofibrillar ATPase activity and suggest that mechanisms other than isomyosin switching are important determinants of ventricular energetics. A troponin T isoform switch is one potential mechanism.

摘要

背景

肥厚和衰竭心肌中机械能量学改变及横桥循环受抑制的时间进程和机制尚不确定。

方法与结果

我们研究了喂食高盐饮食(HS)6周(HS - 6)和12周(HS - 12)的 Dahl 盐敏感(DS)大鼠的机械能量学,以诱导代偿性肥大和衰竭。HS - 6组和低盐对照组(LS - 6)的收缩末期压力 - 容积关系斜率(E'max)相似,但HS - 12组与对照组(LS - 12)相比降低。效率[1/氧耗量(&f1;O2)-压力 - 容积面积(PVA)关系的斜率]在HS - 6组和LS - 6组相似,但HS - 12组高于LS - 12组(59±16%对44±7%,P<0.05)。经济性[1/力 - 时间积分(FTI)-&f1;O2关系的斜率]在HS - 6组和LS - 6组相似,但HS - 12组高于LS - 12组(218±123对74±39x10(3) g·s·mL O2-1·g;P<0.05)。与对照组相比,HS - 6组肌原纤维ATP酶活性降低24%,HS - 12组降低44%。V3 同型肌球蛋白在HS - 6组增加(40±12%对9±8%;P<0.05),在HS - 12组进一步增加(76±10%对22±18%;P<0.05)。甲状腺功能减退的LS - 12组大鼠V3同型肌球蛋白占100%,但其效率、经济性和ATP酶值介于LS - 12组和HS - 12组之间。HS - 12组大鼠肌钙蛋白T3亚型增加(17±2对23±2%,P<0.05)。肌钙蛋白I或原肌球蛋白亚型无变化。然而,HS - 12组心脏中磷酸化肌钙蛋白T的比例低于LS - 12组(P<.001)。

结论

在DS大鼠中,向衰竭的转变与E'max降低及效率和经济性增加有关。这些发现与肌原纤维ATP酶活性相关,并提示除了同型肌球蛋白转换外,其他机制也是心室能量学的重要决定因素。肌钙蛋白T亚型转换是一种潜在机制。

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