青蛙骨骼肌中的二氧化碳、膜电位和细胞内钾活性

Carbon dioxide, membrane potential and intracellular potassium activity in frog skeletal muscle.

作者信息

Huguenin F, Reber W, Zeuthen T

出版信息

J Physiol. 1980 Jun;303:139-52. doi: 10.1113/jphysiol.1980.sp013276.

DOI:10.1113/jphysiol.1980.sp013276

PMID:6776259

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1282882/

Abstract

The membrane potential of isolated frog muscle fibres has been measured in absence and in presence of CO2, at constant external pH. 2. At a normal external Cl concentration, CO2 (PCO2 = 97 mmHg; pH = 7.0) applied for 10 min caused a highly variable depolarization, the average potential change being 8 mV after 5 min. The effect was reversible 3. In Cl-free solutions, CO2 (PCO2 = 97 mmHg; pH = 7.0) caused a biphasic depolarization of 20 mV after 5 min. The effect was fully reversible on CO2 removal. 4. The same effect appeared at a lower partial pressure (PCO2 = 38 mmHg; pH 7.3) in the presence of tetrodotoxin (10(-7) M). 5. In order to investigate the cause of the CO2-induced depolarization, membrane potential and intracellular K activity (ai/K,)( of surface muscle fibres were measured with voltage and ion-sensitive micro-electrodes. 6. At a normal external Cl concentration, CO2(PCO2 approximately equal to 97 mmHg; pH = 7.0) decreased ai/K by 5 mM after 5 min. 7. The same effect appeared at low external Cl concentration (11 mM). 8. At high partial pressure (PCO2 approximately equal to 588 mmHg; pH = 6.8), CO2 reduced ai/K by 19 mM in 10 min. 9. In long-term experiments performed over 4 h with a normal external Cl concentration, CO2 (PCO2 approximately equal to 97 mmHg; pH 5.8 or 7) changed practically neither membrane potential, nor ai/K. 10. It is concluded that increasing the PCO2 when keeping the external pH constant causes an early depolarization of muscle. This effect is particularly marked in the absence of chloride. It can be explained partly, in surface muscle fibres, by a decrease of the intracellular K activity.

摘要

在恒定的外部pH值条件下，分别在无二氧化碳和有二氧化碳存在的情况下，测量了分离的青蛙肌肉纤维的膜电位。2. 在正常的外部氯离子浓度下，施加二氧化碳（PCO₂ = 97 mmHg；pH = 7.0）10分钟会引起高度可变的去极化，5分钟后平均电位变化为8 mV。这种效应是可逆的。3. 在无氯溶液中，二氧化碳（PCO₂ = 97 mmHg；pH = 7.0）在5分钟后引起20 mV的双相去极化。去除二氧化碳后，这种效应完全可逆。4. 在存在河豚毒素（10⁻⁷ M）的情况下，在较低的分压（PCO₂ = 38 mmHg；pH 7.3）时也出现了相同的效应。5. 为了研究二氧化碳诱导去极化的原因，用电压和离子敏感微电极测量了表面肌肉纤维的膜电位和细胞内钾活性（ai/K）。6. 在正常的外部氯离子浓度下，二氧化碳（PCO₂ 约等于97 mmHg；pH = 7.0）在5分钟后使ai/K降低了5 mM。7. 在低外部氯离子浓度（11 mM）时也出现了相同的效应。8. 在高分压（PCO₂ 约等于588 mmHg；pH = 6.8）下，二氧化碳在10分钟内使ai/K降低了19 mM。9. 在使用正常外部氯离子浓度进行的长达4小时的长期实验中，二氧化碳（PCO₂ 约等于97 mmHg；pH 5.8或7）实际上既没有改变膜电位，也没有改变ai/K。10. 得出的结论是，在保持外部pH值恒定的情况下增加PCO₂会导致肌肉早期去极化。这种效应在没有氯离子的情况下尤为明显。在表面肌肉纤维中，这可以部分地通过细胞内钾活性的降低来解释。