通过从“笼化”L-谷氨酸光解释放L-谷氨酸,在鱿鱼巨大突触处产生突触后激活。
Postsynaptic activation at the squid giant synapse by photolytic release of L-glutamate from a 'caged' L-glutamate.
作者信息
Corrie J E, DeSantis A, Katayama Y, Khodakhah K, Messenger J B, Ogden D C, Trentham D R
机构信息
National Institute for Medical Research, Mill Hill, London.
出版信息
J Physiol. 1993 Jun;465:1-8. doi: 10.1113/jphysiol.1993.sp019662.
Abstract
- Pharmacological evidence suggests L-glutamate is a strong candidate as a transmitter at the giant synapse of the squid. Postsynaptic activation at the giant synapse cannot be effected by conventional application of putative neurotransmitters by iontophoresis or perfusion, apparently because the complex structure of the synapse prevents a sufficiently rapid change in concentration at the postsynaptic membrane. Flash photolytic release of L-glutamate from a pharmacologically inert 'caged' L-glutamate pre-equilibrated in the stellate ganglion of Alloteuthis or Loligo was used to determine whether L-glutamate can produce postsynaptic activation when released rapidly in the synaptic clefts. 2. The preparation, reaction mechanism and properties of the caged L-glutamate, N-1-(2-nitrophenyl)ethoxycarbonyl-L-glutamate, are described. The product quantum yield on photolysis was 0.65 (+/- 0.05). On flash photolysis glutamate release followed a single exponential time-course in the pH range 5.5-7.8. The rate constant was proportional to [H+] and was 93 s-1 at pH 5.5 and 16 degrees C in artificial sea water (ionic strength, I = 0.68 M). 3. At pH 7.8 flash photolysis of caged glutamate pre-equilibrated in the synapse caused only a slow depolarization. A second photolytic release of L-glutamate or transsynaptic activation produced no further depolarization, suggesting desensitization and inactivation of postsynaptic mechanisms by the initial pulse of L-glutamate. 4. Synaptic transmission in the giant synapse was normal at pH 5.5. Flash photolysis at pH 5.5 caused rapid production of L-glutamate within the synaptic cleft and a fast postsynaptic depolarization which generated postsynaptic action potentials.(ABSTRACT TRUNCATED AT 250 WORDS)
摘要
- 药理学证据表明,L-谷氨酸很可能是鱿鱼巨大突触的神经递质。通过离子电渗法或灌注法常规施加假定的神经递质,无法在巨大突触处实现突触后激活,这显然是因为突触的复杂结构阻碍了突触后膜处浓度的快速变化。利用在异鱿或枪乌贼的星状神经节中预先平衡的药理学惰性“笼化”L-谷氨酸通过闪光光解释放L-谷氨酸,以确定L-谷氨酸在突触间隙中快速释放时是否能产生突触后激活。2. 描述了笼化L-谷氨酸N-1-(2-硝基苯基)乙氧羰基-L-谷氨酸的制备、反应机制和性质。光解时的产物量子产率为0.65(±0.05)。在pH值5.5 - 7.8范围内,闪光光解后谷氨酸的释放遵循单指数时间进程。速率常数与[H⁺]成正比,在人工海水中(离子强度,I = 0.68 M),pH 5.5和16℃时为93 s⁻¹。3. 在pH 7.8时,对突触中预先平衡的笼化谷氨酸进行闪光光解仅引起缓慢的去极化。第二次光解释放L-谷氨酸或跨突触激活未产生进一步的去极化,这表明L-谷氨酸的初始脉冲使突触后机制脱敏和失活。4. 在pH 5.5时,巨大突触中的突触传递正常。在pH 5.5时进行闪光光解会导致突触间隙内快速产生L-谷氨酸,并引起快速的突触后去极化,进而产生突触后动作电位。(摘要截取自250字)
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