Inhibitory interactions between interneurones in reflex pathways from group Ia and group Ib afferents in the cat.

A hypothesis has been verified that laminae V-VI interneurones which mediate non-reciprocal inhibition of motoneurones from group I muscle afferents have collateral actions on other laminae V-VI interneurones. Stimulation within the areas of projection of these inhibitory interneurones in motor nuclei and in Clarke's column would be expected to give rise to monosynaptic i.p.s.p.s in interneurones with disynaptic i.p.s.p.s from group I afferents if the hypothesis were correct. Intracellular records were made from eighty-five laminae V-VI interneurones with input from group Ia muscle spindle and/or group Ib tendon organ afferents. Weak intraspinal stimuli applied in motor nuclei in L7 and S1 segments, or in the lateral funiculus just caudal to Clarke's column in L4, were found to evoke monosynaptic i.p.s.p.s in seventy-two interneurones. These i.p.s.p.s were systematically correlated with disynaptic inhibition from group Ia or Ib afferents but not from other fibres. Such monosynaptic i.p.s.p.s evoked by intraspinal stimuli were seen in forty-two interneurones which themselves projected to the level of Clarke's column and therefore (on the basis of previous evidence) should mediate inhibition of motoneurones. For seven of these interneurones it was also shown directly that they projected to motor nuclei. The inhibition of such interneurones demonstrates mutual interactions between those interneurones which are interposed in inhibitory pathways from group I afferents. Only indirect indications have been obtained for inhibition of interneurones in the excitatory pathways.