Burrows M
Department of Zoology, University of Cambridge, England.
J Comp Physiol A. 1988 Dec;164(2):207-17. doi: 10.1007/BF00603951.
The responses of spiking local interneurones of a ventral midline population in the metathoracic ganglion of the locust, Schistocerca gregaria, to controlled movements of a proprioceptor, the femoral chordotonal organ (FCO) in a hindleg, were revealed by intracellular recording. Afferents from the FCO which signal specific features of the movement or angle of the femoro-tibial joint, can make direct excitatory synapses with particular interneurones in this population (Burrows 1987a). Some interneurones in this population are excited only by flexion, some only by extension, but others by both flexion and extension movements of the femoro-tibial joint. Interneurones excited by one direction of movement may be either unaffected, or inhibited by the opposite movement. The balance between excitation and inhibition is determined by the range over which the movement occurs, and can increase the accuracy of a representation of a movement. The response of some interneurones has tonic components, so that the angle of the joint over a certain range is represented in the frequency of their spikes. Different interneurones respond within different ranges of femoro-tibial angles so that information about the position of the joint is fractionated amongst several members of the population. These interneurones respond to repetitive movements, similar to those used by the locust during walking, with bursts of spikes whose number and frequency are determined by the repetition rate and amplitude of the movement. A brief movement of the FCO may induce effects which persist for many seconds and outlast the changed pattern of afferent spikes. The sign of such an effect depends upon the preceding history of stimulation. Other interneurones respond only to movement so that their response is more phasic. The velocities to which they respond fall within the range of those generated by twitches of the flexor and extensor tibiae muscles and the movements of the tibia during locomotion. Some interneurones respond only to a specific range of velocities because they are inhibited by all other movements. Some interneurones respond to repetitive movements with reliable bursts of spikes, whilst in others the frequency of spikes may be raised but may contain no cyclical information.(ABSTRACT TRUNCATED AT 400 WORDS)
通过细胞内记录,揭示了蝗虫(沙漠蝗)后胸神经节腹中线一群局部中间神经元对后肢一个本体感受器——股弦音器(FCO)受控运动的反应。来自FCO的传入神经信号,能反映股胫关节运动或角度的特定特征,可与这群特定的中间神经元形成直接兴奋性突触(伯罗斯,1987a)。这群中间神经元中,有些仅在关节屈曲时兴奋,有些仅在伸展时兴奋,但其他一些则在股胫关节屈曲和伸展运动时均兴奋。被一个运动方向兴奋的中间神经元,可能不受相反运动的影响,也可能被其抑制。兴奋与抑制之间的平衡,由运动发生的范围决定,可提高运动表征的准确性。一些中间神经元的反应具有紧张性成分,因此关节在一定范围内的角度,由其放电频率来表征。不同的中间神经元在不同的股胫角范围内做出反应,从而使关于关节位置的信息,在这群神经元的多个成员之间进行细分。这些中间神经元对重复运动做出反应,类似于蝗虫行走时的运动,其放电脉冲的数量和频率,由运动的重复率和幅度决定。FCO的短暂运动可能会产生持续数秒且超过传入放电脉冲变化模式的效应。这种效应的迹象取决于先前的刺激历史。其他中间神经元仅对运动做出反应,因此它们的反应更具相位性。它们做出反应的速度,落在胫节屈肌和伸肌抽搐以及运动过程中胫节运动所产生的速度范围内。一些中间神经元仅对特定的速度范围做出反应,因为它们受到所有其他运动的抑制。一些中间神经元对重复运动做出可靠的放电脉冲,而在其他一些中间神经元中,放电频率可能会提高,但可能不包含周期性信息。(摘要截选至400字)
