蝗虫后胸神经节中局部中间神经元与运动神经元之间的分级突触传递。
Graded synaptic transmission between local interneurones and motor neurones in the metathoracic ganglion of the locust.
作者信息
Burrows M, Siegler M V
出版信息
J Physiol. 1978 Dec;285:231-55. doi: 10.1113/jphysiol.1978.sp012569.
Abstract
- In the metathoracic ganglion of the locust some neurones can effect changes in the membrane potential of identified post-synaptic motor neurones without themselves spiking. 2. These 'non-spiking' neurones have processes only within the metathoracic ganglion, and therefore are local intraganglionic interneurones. 3. The absence of spikes in the interneurones reflects their normal physiological state and is not due to the experimental conditions. 4. When the interneurones are depolarized by the injection of current pulses lasting several hundred milliseconds, post-synaptic motor neurones are either depolarized, or hyperpolarized, for the duration of the pulse. 5. The magnitude of the change in post-synaptic voltage is graded according to the amount of presynaptic current. 6. A number of physiological tests indicate that the graded effects upon motor neurones are mediated by chemical synaptic transmission. For example, an evoked hyperpolarization of a motor neurone can be reversed in polarity by simultaneously hyperpolarizing the motor neurone with injected current. 7. At their resting potential some interneurones tonically release sufficient transmitter to have a measurable post-synaptic effect. The injection of depolarizing and hyperpolarizing currents into these interneurones effects opposite changes in post-synaptic potential. 8. Other interneurones must be depolarized from resting potential before a post-synaptic effect is observed, and hyperpolarizing currents have no post-synaptic effect. In these interneurones it is estimated that a depolarization of only 2 mV is sufficient to effect the release of transmitter. 9. The membrane potentials of non-spiking interneurones can fluctuate by as much as 15 mV during active movements of the hind legs and individual p.s.p.s as large as 5 mV can be recorded. Therefore, summed p.s.p.s or even single ones are expected to be the electrophysiological signals effecting transmitter release from these interneurones.
摘要
- 在蝗虫的后胸神经节中,一些神经元能够在自身不产生动作电位的情况下,使已识别的突触后运动神经元的膜电位发生变化。2. 这些“无动作电位”神经元的突起仅存在于后胸神经节内,因此是局部神经节内中间神经元。3. 中间神经元不产生动作电位反映了它们的正常生理状态,并非实验条件所致。4. 当通过注入持续数百毫秒的电流脉冲使中间神经元去极化时,突触后运动神经元在脉冲持续期间要么去极化,要么超极化。5. 突触后电压变化的幅度根据突触前电流的大小分级。6. 多项生理测试表明,对运动神经元的分级效应是由化学突触传递介导的。例如,通过注入电流使运动神经元同时超极化,可以逆转运动神经元诱发的超极化极性。7. 在静息电位时,一些中间神经元持续释放足够的神经递质,产生可测量的突触后效应。向这些中间神经元注入去极化和超极化电流会使突触后电位产生相反的变化。8. 其他中间神经元在观察到突触后效应之前必须从静息电位去极化,超极化电流没有突触后效应。据估计,在这些中间神经元中,仅2 mV的去极化就足以促使神经递质释放。9. 在蝗虫后腿活跃运动期间,无动作电位中间神经元的膜电位波动幅度可达15 mV,可记录到高达5 mV的单个突触后电位。因此,预期总和的突触后电位甚至单个突触后电位就是影响这些中间神经元释放神经递质的电生理信号。
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本文引用的文献
1
PERIPHERAL INHIBITION IN SKELETAL MUSCLE OF INSECTS.昆虫骨骼肌中的外周抑制
J Neurophysiol. 1965 May;28:497-518. doi: 10.1152/jn.1965.28.3.497.
2
Changes in end-plate activity produced by presynaptic polarization.突触前极化引起的终板活动变化。
J Physiol. 1954 Jun 28;124(3):586-604. doi: 10.1113/jphysiol.1954.sp005131.
3
Theoretical reconstruction of field potentials and dendrodendritic synaptic interactions in olfactory bulb.嗅球中场电位和树突-树突突触相互作用的理论重建
J Neurophysiol. 1968 Nov;31(6):884-915. doi: 10.1152/jn.1968.31.6.884.
4
Crab muscle receptor which responds without impulses.蟹肌感受器,其反应无需冲动。
Nature. 1968 Jun 22;218(5147):1170-1. doi: 10.1038/2181170a0.
5
Oscillator neurons in crustacean ganglia.甲壳纲动物神经节中的振荡神经元。
Science. 1971 Mar 19;171(3976):1170-3. doi: 10.1126/science.171.3976.1170.
6
Neural organization of the median ocellus of the dragonfly. I. Intracellular electrical activity.蜻蜓中单眼的神经组织。I. 细胞内电活动
J Gen Physiol. 1972 Aug;60(2):121-47. doi: 10.1085/jgp.60.2.121.
7
Neural mechanisms underlying behavior in the locust Schistocerca gregaria. I. Physiology of identified motorneurons in the metathoracic ganglion.沙漠蝗(Schistocerca gregaria)行为背后的神经机制。I. 后胸神经节中已鉴定运动神经元的生理学
J Neurobiol. 1973;4(1):3-41. doi: 10.1002/neu.480040104.
8
Effect of hypoxia on the change in membrane conductance evoked by illumination in arthropod photoreceptors.
Nat New Biol. 1973 Aug 1;244(135):146-8. doi: 10.1038/newbio244146b0.
9
A study of synaptic transmission in the absence of nerve impulses.一项在无神经冲动情况下的突触传递研究。
J Physiol. 1967 Sep;192(2):407-36. doi: 10.1113/jphysiol.1967.sp008307.
10
Organization of the retina of the mudpuppy, Necturus maculosus. II. Intracellular recording.泥螈(Necturus maculosus)视网膜的组织结构。II. 细胞内记录
J Neurophysiol. 1969 May;32(3):339-55. doi: 10.1152/jn.1969.32.3.339.
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