豚鼠心室肌细胞中细胞外阳离子对氯离子电流和钙电流β-肾上腺素能反应的调节作用

Modulation of beta-adrenergic responses of chloride and calcium currents by external cations in guinea-pig ventricular cells.

作者信息

Tareen F M, Yoshida A, Ono K

机构信息

Department of Physiology, Faculty of Medicine, Kyushu University, Fukuoka, Japan.

出版信息

J Physiol. 1992 Nov;457:211-28. doi: 10.1113/jphysiol.1992.sp019374.

DOI:10.1113/jphysiol.1992.sp019374

PMID:1338457

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175727/

Abstract

The catecholamine-induced Cl- current and the Ca2+ current were recorded in the single ventricular cells of guinea-pig hearts, using the whole-cell patch clamp technique combined with internal perfusion. Dependence of the beta-adrenergic responses on external monovalent cations was investigated. The Cl- current was recognized by measuring the reversal potential of the agonist-induced current. 2. The amplitude of the Cl- current, activated by 1 microM adrenaline or 0.01-0.1 microM isoprenaline, was decreased when the external Na+ concentration ([Na+]o) was reduced by replacement with Tris+. The conductance of the catecholamine-induced Cl- current was proportional to the logarithm of the [Na+]o over a range of 15-140 mM. When the conductance was plotted against the concentration of Tris+, a dose-dependent inhibition of the Cl- response by Tris+ was suggested with a half-maximum concentration of 95 mM. 3. The inhibitory effect of the Na+ substitute TEA+ on the Cl- current was not affected by either increasing the buffer for the internal Ca2+ (10 mM BAPTA) or for the pH (50 mM HEPES). 4. In the relationship between agonist concentration and the Cl- conductance, the half-maximum concentration (K1/2) of isoprenaline was 0.013 microM in the control Na+ solution, and was shifted to 0.07, 0.08, 0.1 and 0.3 microM in the Li+, Cs+, TEA+ and Tris+ external solutions, respectively. The maximum slope conductance was not significantly affected, except for a slight depression on the Tris+ solution. When the current was induced by adrenaline, qualitatively the same finding was obtained; K1/2 was 0.15 and 3.2 microM in the Na+ and Tris+ solutions, respectively. 5. As a substitute for the external Na+, sucrose seemed to be inert. The activation of the inward Cl- current was conserved in the 300 mM sucrose solution ([Cl-]o = 8 mM) with a K1/2 value of 0.015 microM isoprenaline. 6. The Cl- current, when activated by either an external application of forskolin (0.2-10 microM) or an internal perfusion of cyclic AMP (100-500 microM), was not affected by replacing external Na+ with other cations. Activation of the Cl- current by 0.2-5 microM histamine was also insensitive to a substitution of Na+. These findings indicate that the inhibition by the Na+ substitute is at a point before the activation of GTP-binding protein. 7. The effects of Na+ substitution were not affected by varying the Na+ concentration (0-115 mM) in the internal solution, excluding an involvement of a change in the [Na+]i.(ABSTRACT TRUNCATED AT 400 WORDS)

摘要

采用全细胞膜片钳技术结合内部灌流，在豚鼠心脏单个心室细胞中记录儿茶酚胺诱导的氯离子电流和钙离子电流。研究了β-肾上腺素能反应对外界单价阳离子的依赖性。通过测量激动剂诱导电流的反转电位来识别氯离子电流。2. 当用Tris⁺替代降低细胞外钠离子浓度（[Na⁺]o）时，由1微摩尔肾上腺素或0.01 - 0.1微摩尔异丙肾上腺素激活的氯离子电流幅度降低。在15 - 140毫摩尔范围内，儿茶酚胺诱导的氯离子电流电导与[Na⁺]o的对数成正比。当将电导与Tris⁺浓度作图时，提示Tris⁺对氯离子反应有剂量依赖性抑制，半数最大浓度为95毫摩尔。3. 钠离子替代物TEA⁺对氯离子电流的抑制作用不受增加内部钙离子缓冲剂（10毫摩尔BAPTA）或pH缓冲剂（50毫摩尔HEPES）的影响。4. 在激动剂浓度与氯离子电导的关系中，异丙肾上腺素的半数最大浓度（K1/2）在对照钠离子溶液中为0.013微摩尔，在锂离子、铯离子、TEA⁺和Tris⁺细胞外溶液中分别移至0.07、0.08、0.1和0.3微摩尔。最大斜率电导除在Tris⁺溶液中有轻微降低外，无明显影响。当电流由肾上腺素诱导时，得到定性相同的结果；在钠离子和Tris⁺溶液中K1/2分别为0.15和3.2微摩尔。5. 作为细胞外钠离子的替代物，蔗糖似乎无活性。在300毫摩尔蔗糖溶液（[Cl⁻]o = 8毫摩尔）中，内向氯离子电流的激活得以保留，异丙肾上腺素的K1/2值为0.015微摩尔。6. 当通过外部应用福斯高林（0.2 - 10微摩尔）或内部灌流环磷酸腺苷（100 - 500微摩尔）激活氯离子电流时，用其他阳离子替代细胞外钠离子对其无影响。0.2 - 5微摩尔组胺激活氯离子电流对钠离子替代也不敏感。这些发现表明钠离子替代物的抑制作用发生在GTP结合蛋白激活之前的某个点。7. 细胞内溶液中钠离子浓度（0 - 115毫摩尔）的变化不影响钠离子替代的效果，排除了[Na⁺]i变化的影响。（摘要截于400字）