秋水仙碱在昆虫运动神经元胞体中诱导的动作电位的离子依赖性。
The ionic dependence of action potentials induced by colchicine in an insect motoneurone cell body.
作者信息
Pitman R M
出版信息
J Physiol. 1975 May;247(2):511-20. doi: 10.1113/jphysiol.1975.sp010944.
Abstract
- The ionic requirements of the action potential recorded in the cell of an identified cockroach (Periplaneta americana) motoneurone following pre-treatment of the animal with colchicine have been studied. 2. Small cubes of gelatin containing 1% colchicine were implanted into one metathoracic leg near to the nerve trunk containing the axon of the identified motoneurone. 3. Electrophysiological experiments were performed 4--10 days after this treatment, when action potentials which frequently overshoot zero potential can be recorded from the cell body. Such action potentials are not normally seen in untreated animals. 4. Sodium-free solution reversibly abolished the action potential within 5 min. 5. Tetrodotoxin (10(-8)M) reversibly depressed the action potential. It was totally abolished by 10(-7)M tetrodotoxin, but this effect was not reversible. 6. Saline solution containing 40 mM manganous chloride either had no effect on the action potential amplitude, or caused a slight increase. It also caused prolongation of the falling phase and loss of the after-hyperpolarization. These effects were all reversible. 7. It is concluded that sodium carries a major proportion of the inward current of the action potential in this neurone. Some calcium probably enters also, and may, at least in part, be responsible for triggering the delayed rise in potassium conductance during the action potential.
摘要
- 研究了用秋水仙碱预处理动物后,在已鉴定的蟑螂(美洲大蠊)运动神经元细胞中记录到的动作电位的离子需求。2. 将含有1%秋水仙碱的明胶小方块植入靠近含有已鉴定运动神经元轴突的神经干的一条后胸腿中。3. 在这种处理后4 - 10天进行电生理实验,此时可从细胞体记录到经常超过零电位的动作电位。在未处理的动物中通常看不到这种动作电位。4. 无钠溶液在5分钟内可逆地消除动作电位。5. 河豚毒素(10^(-8)M)可逆地抑制动作电位。10^(-7)M河豚毒素可使其完全消除,但这种作用不可逆。6. 含有40mM氯化锰的盐溶液要么对动作电位幅度无影响,要么使其略有增加。它还导致下降相延长和后超极化消失。这些作用都是可逆的。7. 得出结论,在该神经元中,钠携带动作电位内向电流的主要部分。可能也有一些钙进入,并且至少部分地可能负责在动作电位期间触发钾电导的延迟上升。
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