Intracellular injection of cyclic GMP depresses cardiac slow action potentials.

G M Wahler, N Sperelakis
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Abstract

Our laboratory has shown that intracellular injection of cyclic AMP (cAMP) transiently enhances slow APs in myocardial cells, presumably by phosphorylating slow channels. To test if cGMP also plays a role in cardiac slow channel function, superfusion with 8-Br-cGMP, and intracellular injections of cGMP were carried out in guinea pig papillary muscles (stimulated at 0.5 Hz at 37 degrees C). In normal (4.7 mM K+) Tyrode's solution, 0.1 mM 8-Br-cGMP depressed contractions and had variable effects on the duration of the fast APs. Slow APs were elicited by electrical stimulation (in 25 mM K+-Tyrode's solution) following the addition of 10 mM TEA and doubling the bath [Ca] (to 4.0 mM) or addition of 0.2 microM isoproterenol. Slow APs are dependent on the slow inward current carried through voltage- and time-dependent slow channels. 8-Br-cGMP (0.1 microM - 1 mM) superfusion depressed or abolished slow APs and accompanying contractions. cGMP (5-100 mM Na+ salt in 0.2 M KC1) was injected by application of pressure pulses (40-75 psi, 1-30 sec duration) to the recording microelectrode. cGMP injection transiently depressed (n = 15) or abolished (n = 4) the slow APs. The effect began 1 min after the onset of the pulse, reached a maximum at 2 min and recovered fully within 5-6 min. Thus, it appears that the intracellular cGMP level can modulate the slow inward current in a direction opposite to that of cAMP. These effects may both be due to cyclic nucleotide-dependent phosphorylations.

细胞内注射环GMP可抑制心脏慢动作电位。
我们的实验室已经证明,细胞内注射环状AMP (cAMP)可能通过磷酸化慢速通道,暂时增强心肌细胞中的慢速APs。为了测试cGMP是否也在心脏慢通道功能中发挥作用,在豚鼠乳头肌中进行了8-Br-cGMP灌注和细胞内注射cGMP(在37℃下以0.5 Hz刺激)。在正常(4.7 mM K+) Tyrode溶液中,0.1 mM 8-Br-cGMP抑制收缩,并对快速APs的持续时间有不同的影响。在加入10 mM TEA并将浴液[Ca]加倍(至4.0 mM)或加入0.2微米异丙肾上腺素后,通过电刺激(在25 mM K+-Tyrode溶液中)引发慢ap。慢ap依赖于缓慢的向内电流通过电压和时间相关的慢通道。8-Br-cGMP(0.1微米- 1毫米)灌注抑制或消除慢速APs和伴随的收缩。通过施加压力脉冲(40-75 psi,持续时间1-30秒)将cGMP (5-100 mM Na+盐在0.2 M KC1中)注入记录微电极。cGMP注射液可短暂抑制(n = 15)或消除(n = 4)慢ap。这种作用在脉冲开始后1分钟开始,在2分钟达到最大,在5-6分钟内完全恢复。由此可见,细胞内cGMP水平可以调节缓慢的内向电流,方向与cAMP相反。这些影响可能都是由于环核苷酸依赖性磷酸化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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