Xin Y, Weiss K R, Kupfermann I
Center for Neurobiology and Behavior, College of Physicians and Surgeons, Columbia University, New York, New York 10032, USA.
J Neurosci. 1996 Aug 15;16(16):5266-79. doi: 10.1523/JNEUROSCI.16-16-05266.1996.
Previous results have indicated that the bilateral cerebral interneuron CC5 mediates the pedal artery shortening that is a component of defensive withdrawal responses involving the head. Current studies suggest that CC5 contributes to aspects of at least six different behaviors: locomotion, head turning, defensive head withdrawal, local tentacular withdrawal, rhythmic feeding, and head lifting. In addition to receiving input from mechanoreceptors in the head, CC5 receives synaptic input during fictive locomotor and feeding programs. Firing of CC5 produces widespread monosynaptic or polysynaptic actions in all ganglia in the animal. CC5 excites presumptive motor neurons for the neck, and its activity can contract neck muscles. The pedal artery shortener motor neuron (PAS), a key excitatory follower cell of CC5, fires during ipsilateral head turning, head withdrawal, tentacle withdrawal, feeding, and locomotion. For all behaviors, except locomotion and biting, responses of PAS were eliminated by cutting the ipsilateral-pleural connective, which interrupts the only direct connection of CC5 to the ipsilateral PAS. The data suggest that CC5 is a multifunctional interneuron that plays different roles during different behaviors. The neuron appears to be involved in producing coordinated movements of the head, involving both somatic and visceral muscles. For some behaviors, or for certain aspects of behaviors, CC5 appears to act as an individual command-like neuron; for other behaviors, CC5 appears to act more as an element of a distributed circuit and is neither necessary nor sufficient for any aspects of the behavior.
先前的研究结果表明,双侧脑中间神经元CC5介导了足动脉缩短,这是涉及头部的防御性退缩反应的一个组成部分。目前的研究表明,CC5至少在六种不同行为中发挥作用:运动、转头、头部防御性退缩、局部触手退缩、节律性进食和抬头。除了接收来自头部机械感受器的输入外,CC5在虚拟运动和进食程序期间还接收突触输入。CC5的放电在动物的所有神经节中产生广泛的单突触或多突触作用。CC5兴奋颈部的假定运动神经元,其活动可使颈部肌肉收缩。足动脉缩短运动神经元(PAS)是CC5的关键兴奋性跟随细胞,在同侧转头、头部退缩、触手退缩、进食和运动期间放电。对于除运动和咬以外的所有行为,切断同侧胸膜结缔组织可消除PAS的反应,该结缔组织中断了CC5与同侧PAS的唯一直接连接。数据表明,CC5是一个多功能中间神经元,在不同行为中发挥不同作用。该神经元似乎参与产生头部的协调运动,涉及躯体和内脏肌肉。对于某些行为或行为的某些方面,CC5似乎充当单个指令样神经元;对于其他行为,CC5似乎更多地作为分布式回路的一个元件起作用,对于行为的任何方面既不是必需的也不是充分的。