在青蛙中,运动神经冲动的数毫秒内ATP和神经递质同步释放。
Synchronous release of ATP and neurotransmitter within milliseconds of a motor nerve impulse in the frog.
作者信息
Silinsky E M, Redman R S
机构信息
Department of Molecular Pharmacology and Biological Chemistry, Northwestern University Medical School, Chicago, IL 60611-3008, USA.
出版信息
J Physiol. 1996 May 1;492 ( Pt 3)(Pt 3):815-22. doi: 10.1113/jphysiol.1996.sp021348.
Abstract
- It has been suggested that ATP is released together with the neurotransmitter acetylcholine (ACh) and, after hydrolysis to adenosine, is the primary physiological mediator of prejunctional neuromuscular depression. To evaluate whether ATP is released with sufficient rapidity to mediate prejunctional depression, outside-out patches containing both ATP-gated and ACh-gated ion channels were made from acutely dissociated guinea-pig sympathetic neurons and used to detect the co-release of nucleotide and neurotransmitter in frog cutaneous pectoris nerve-muscle preparations. 2. In a normal bathing solution in which muscle nicotinic receptors were blocked, a single stimulus to the motor nerve produced channel openings in the detector patch characteristic of both ATP and ACh. 3. In the remaining experiments, preparations were treated with sufficient hexamethonium (200 microM) to block nicotinic responses in the detector patch. In these experiments, a single temporally isolated nerve impulse caused the synchronous opening of ATP-gated channels in the detector patch with a latency of < 5 ms when patches were placed within 10 microns of the motor nerve ending. This multichannel phasic response was followed by trail of discrete channel openings characteristic of ATP-gated channels. 4. The selective ATP antagonist suramin (50 microM) reversibly eliminated the response to nerve stimulation. 5. The results suggest that ATP is released synchronously together with the neurotransmitter ACh in response to an individual nerve impulse and with a brief latency characteristic of quantal release from synaptic vesicles.
摘要
- 有人提出,三磷酸腺苷(ATP)与神经递质乙酰胆碱(ACh)一起释放,水解为腺苷后,是节前神经肌肉抑制的主要生理介质。为了评估ATP是否以足够快的速度释放以介导节前抑制,从急性解离的豚鼠交感神经元制备含有ATP门控和ACh门控离子通道的外翻膜片,并用于检测蛙胸皮神经 - 肌肉标本中核苷酸和神经递质的共同释放。2. 在肌肉烟碱样受体被阻断的正常浴液中,对运动神经的单次刺激在检测膜片中产生了ATP和ACh特有的通道开放。3. 在其余实验中,用足够的六甲铵(200微摩尔)处理标本以阻断检测膜片中的烟碱样反应。在这些实验中,当膜片置于运动神经末梢10微米范围内时,单个时间上孤立的神经冲动导致检测膜片中ATP门控通道同步开放,潜伏期小于5毫秒。这种多通道相位反应之后是ATP门控通道特有的离散通道开放轨迹。4. 选择性ATP拮抗剂苏拉明(50微摩尔)可逆地消除了对神经刺激的反应。5. 结果表明,ATP与神经递质ACh一起在单个神经冲动作用下同步释放,具有从突触小泡量子释放的短暂潜伏期特征。
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