Freer R J, Pappano A J, Peach M J, Bing K T, McLean M J, Vogel S, Sperelakis N
Circ Res. 1976 Aug;39(2):178-83. doi: 10.1161/01.res.39.2.178.
Angiotensin II (A II) and analogues were tested for their ability to restore electrical and mechanical activity to cardiac muscle preparations in which the fast Na+ channels had been inactivated by partial depolarization (22-27 mM K+) or by tetrodotoxin (TTX). The partially depolarized or TTX-blocked preparations were chosen because under these conditions electrical and mechanical responses are primarily Ca2+ -dependent. In depolarized rabbit right atria, A II restored spontaneous mechanical and electrical activity (measured by both intracellular and extracellular recording techniques). The frequency of action potential discharge was concentration-dependent; the threshold concentration of A II was 10(-10) M, the ED50 was 8 X 10(-9) M, and the maximum effect was observed at 5 X 10(-8) M. In contrast, depolarized guinea pig atria were insensitive to A II, Sar1-angiotensin II, and des-Asp1-angiotensin II, even at concentrations as high as 10(-5) M. Rabbit papillary muscle (TTX-blocked), embryonic (18-day) chick heart (partially depolarized) and chick heart reaggregates (TTX-blocked) responded similarly to rabbit atria in that A II (9.6 X 10(-7) M) restored both electrical and mechanical activity. We found that in these preparations the action of A II was unaffected by propranolol (5.0 X 10(-6) M to 5.0 X 10(-5) M) but was blocked by Mn2+ (10(-3) M), D-600 (1 X 10(-7) g/ml) and the specific A II antagonists Sar1-Ala8-angiotensin II (P-113) (5.0 X 10(-5) M) and Sar1-Ile8-angiotensin II (5.28 X 10(-5) M). We conclude that the positive inotropic effect of A II on the myocardium is due to its ability to increase transmembrane ion movements in or through the cell membrane. The ability of Mn2+ and D-600 to block this effect suggests that this ion movement is via the so-called "slow channels."
对血管紧张素II(A II)及其类似物进行了测试,以考察它们使快钠通道因部分去极化(22 - 27 mM钾离子)或河豚毒素(TTX)而失活的心肌制剂恢复电活动和机械活动的能力。选择部分去极化或TTX阻断的制剂是因为在这些条件下,电反应和机械反应主要依赖于钙离子。在去极化的兔右心房中,A II恢复了自发的机械活动和电活动(通过细胞内和细胞外记录技术测量)。动作电位发放频率呈浓度依赖性;A II的阈浓度为10^(-10) M,半数有效浓度(ED50)为8×10^(-9) M,在5×10^(-8) M时观察到最大效应。相比之下,去极化的豚鼠心房对A II、Sar1 - 血管紧张素II和去 - Asp1 - 血管紧张素II不敏感,即使在高达10^(-5) M的浓度下也是如此。兔乳头肌(TTX阻断)、胚胎(18天)鸡心脏(部分去极化)和鸡心脏重聚体(TTX阻断)对A II的反应与兔心房相似,即A II(9.6×10^(-7) M)恢复了电活动和机械活动。我们发现,在这些制剂中,A II的作用不受普萘洛尔(5.0×10^(-6) M至5.0×10^(-5) M)的影响,但被锰离子(10^(-3) M)、D - 600(1×10^(-7) g/ml)以及特异性A II拮抗剂Sar1 - Ala8 - 血管紧张素II(P - 113)(5.0×10^(-5) M)和Sar1 - Ile8 - 血管紧张素II(5.28×10^(-5) M)阻断。我们得出结论,A II对心肌的正性肌力作用归因于其增加跨膜离子在细胞膜内或通过细胞膜移动的能力。锰离子和D - 600阻断这种效应的能力表明这种离子移动是通过所谓的“慢通道”进行的。
