Synaptic excitation of the second and third order auditory neurons in the avian brain stem

Abstract

Synaptic potentials were examined in the second- and third-order auditory neurons of nucleus magnocellularis and nucleus laminaris in the chick. Brain stems of mature chick embryos were explanted and maintained in vitro for 4 to 8 h. Field potentials, extracellular spike potentials and intracellular potentials evoked by 8th-nerve stimulation were examined.

Eighth-nerve stimulation reliably elicited four identifiable field potentials which could be attributed to:

• (i)

  the afferent volley of the 8th-nerve axons,

• (ii)

  postsynaptic responses of n. magnocellularis neurons, and

• (iii)

  ipsilaterally and,

• (iv)

  contralaterally-evoked n. laminaris postsynaptic responses. Intracellular-recorded postsynaptic potentials from n. magnocellularis neurons were of two classes. ‘Fast’ excitatory postsynaptic potentials were characterized by a rapid rise time and short duration. They were apparently monosynaptic with a synaptic delay of 0.4 ms. In each n. magnocellularis neuron the ‘fast’ excitatory postsynaptic potentials were composed of 1 to 3 all-or-none components. ‘Slow’ excitatory postsynaptic potentials were characterized by a longer latency, a longer duration and graded amplitude variation in proportion to the intensity of 8th-nerve stimulation. Both ‘fast’ and ‘slow’ excitatory postsynaptic potentials had similar reversal potentials. Since the 8th nerve makes monosynaptic connection with n. magnocellularis neurons, it is likely that at this synapse the ‘fast’ excitatory postsynaptic potentials were produced, while the ‘slow’ potential may be attributable to the convergence of many boutonal synapses of unknown origin.

Intracellular injections of horseradish peroxidase into n. magnocellularis revealed that its efferents bifurcate below the nucleus and send one axon to the contralateral n. laminaris while the other axon forms a highly divergent projection to the ipsilateral laminar nucleus. The intracellular records obtained from n. laminaris are consistent with this anatomical finding in that graded excitatory postsynaptic potentials were elicited by 8th-nerve stimulation.