三磷酸腺苷调节豚鼠肠肌间神经元的膜钾离子电导。
Adenosine 5'-triphosphate modulates membrane potassium conductance in guinea-pig myenteric neurones.
作者信息
Katayama Y, Morita K
机构信息
Department of Autonomic Physiology, Tokyo Medical and Dental University, Japan.
出版信息
J Physiol. 1989 Jan;408:373-90. doi: 10.1113/jphysiol.1989.sp017464.
Abstract
- Intracellular recordings were made from myenteric neurones isolated from the guinea-pig small intestine to study actions of adenosine 5'-triphosphate (ATP). ATP was applied by superfusion (10 nM-100 microM) or pressure ejection from ATP-containing glass pipettes. 2. Myenteric neurones have been classified into two groups: type I/S neurones and type II/AH neurones. ATP produced a membrane hyperpolarization in 80% of AH neurones and a membrane depolarization in 90% of S neurones in a dose-dependent manner. Adenosine caused responses similar to those induced by ATP in both AH and S neurones, but was less effective than ATP. 3. The ATP-induced hyperpolarization was associated with a fall in input resistance, but the ATP-induced depolarization was accompanied by an increase in input resistance. Both responses reversed in polarity near the potassium equilibrium potential (-84 to -87 mV) and the reversal potential varied with extracellular potassium concentration, as predicted by the Nernst equation. These results indicate that the hyperpolarization is due to an increase, while the depolarization is due to a decrease in potassium conductance. 4. Both the hyperpolarization and the depolarization induced by ATP persisted in calcium-free solution containing 1.2 mM-magnesium, but were markedly reduced or abolished in calcium-free solutions containing 3.7-10 mM-magnesium and by 1 mM-nickel or cobalt. Both responses to ATP persisted in tetraethylammonium (1-10 mM) or tetrodotoxin (1-3 microM)-containing solutions. 5. Quinine and quinidine (1-100 microM) reversibly depressed both the ATP-induced responses. Caffeine (100 microM), theophylline (100 microM) and 3-isobutyl-1-methylxanthine (1-10 microM) did not significantly affect the ATP-induced depolarization but did reversibly depress the ATP-induced hyperpolarization. 6. These results suggest that the ATP-induced hyperpolarization may be due to activation, and the ATP-induced depolarization to inactivation, of a calcium-sensitive potassium conductance.
摘要
- 从豚鼠小肠分离出肠肌间神经元进行细胞内记录,以研究5'-三磷酸腺苷(ATP)的作用。通过灌流(10 nM - 100 μM)或从含ATP的玻璃微管中压力喷射来施加ATP。2. 肠肌间神经元已被分为两组:I/S型神经元和II/AH型神经元。ATP以剂量依赖性方式使80%的AH神经元产生膜超极化,使90%的S神经元产生膜去极化。腺苷在AH和S神经元中引起的反应与ATP诱导的反应相似,但效果比ATP差。3. ATP诱导的超极化与输入电阻下降有关,但ATP诱导的去极化伴随着输入电阻增加。两种反应在钾平衡电位(-84至-87 mV)附近极性反转,且反转电位随细胞外钾浓度变化,正如能斯特方程所预测的。这些结果表明,超极化是由于钾电导增加,而去极化是由于钾电导降低。4. ATP诱导的超极化和去极化在含1.2 mM镁的无钙溶液中持续存在,但在含3.7 - 10 mM镁的无钙溶液以及1 mM镍或钴存在时明显减弱或消除。对ATP的两种反应在含四乙铵(1 - 10 mM)或河豚毒素(1 - 3 μM)的溶液中持续存在。5. 奎宁和奎尼丁(1 - 100 μM)可逆地抑制ATP诱导的两种反应。咖啡因(100 μM)、茶碱(100 μM)和3 - 异丁基 - 1 - 甲基黄嘌呤(1 - 10 μM)对ATP诱导的去极化无显著影响,但可逆地抑制ATP诱导的超极化。6. 这些结果表明,ATP诱导的超极化可能是由于钙敏感钾电导的激活,而ATP诱导的去极化可能是由于其失活。
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