Vestibulo-ocular reflex from the posterior canal nerve to extraocular motoneurons in the cat

Abstract

In the anesthetized cat, the posterior canal nerve (PCN) was stimulated by electric pulses and synaptic responses were recorded intracellularly in the three antagonistic pairs of extraocular motoneurons. Pure reciprocal effects were obtained in the motoneurons innervating the antagonistic pair of ipsilateral oblique muscles and the antagonistic pair of contralateral vertical rectus muscles. These responses consisted of low threshold disynaptic excitatory postsynaptic potentials (EPSPs) in either the contralateral superior oblique (c-SO) (trochlear) or contralateral inferior rectus (c-IR) motoneurons and of disynaptic inhibitory postsynaptic potentials (IPSPs) in either the ipsilateral inferior oblique (i-IO) or ipsilateral superior rectus (i-SR) motoneurons. In addition, disynaptic IPSPs were also found in (i-SO) motoneurons. Mixtures of low threshold (dior trisynaptic) EPSPs and IPSPs were found in all other extraocular motoneurons except for the contralateral lateral rectus (c-LR) motoneurons. These results may afford a basis for the characteristic eye movements induced by vertical canal nerve stimulation.