Commissural and Lemniscal Synaptic Input to the Gerbil Inferior Colliculus

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Commissural and Lemniscal Synaptic Input to the Gerbil Inferior Colliculus

David R. Moore¹^,³, Vibhakar C. Kotak¹, and Dan H. Sanes¹^,²

¹ Center for Neural Science and ² Department of Biology, New York University, New York 10003; and ³ University Laboratory of Physiology, Oxford OX1 3PT, United Kingdom

Moore, David R., Vibhakar C. Kotak, and Dan H. Sanes. Commissural and lemniscal synaptic input to the gerbil inferiorcolliculus. J. Neurophysiol. 80: 2229-2236, 1998. The centralnucleus of the inferior colliculus (ICC) receives direct inputs,bilaterally, from all auditory brain stem nuclear groups. To evaluatethe contribution made to gerbil ICC neuron physiology by two majorafferent pathways, we examined the synaptic responses evoked bydirect stimulation of the commissure of the inferior colliculus(CIC) and the ipsilateral lateral lemniscus (LL). Frontal midbrainslices were obtained from postnatal day (P) 9-P19 gerbils, andwhole cell recordings were made under current- (n = 22) or voltage-clamp(n = 52) conditions. Excitatory and inhibitory synaptic responseswere characterized by sequentially exposing the slice to ionotropicglutamate receptor antagonists [6-cyano-7-nitroquinoxaline-2,3-dione(CNQX) + aminophosphonpentanoic acid (AP-5), or kynurenic acid)],a $gamma$ -aminobutryic acid type A receptor antagonist (bicuculline),and a glycine receptor antagonist (strychnine). In current clamp,LL stimulation typically produced a short latency depolarizationfollowed by a longer duration hyperpolarization. The depolarizationwas abolished by AP-5 + CNQX, and the remaining inhibitory potentialdisplayed either bicuculline or strychnine sensitivity. In voltageclamp, 79% of ICC neurons displayed synaptic currents after stimulationof each pathway. The synaptic currents were typically complexwaveforms, and ionotropic glutamate receptor antagonists reducedinward currents at a holding potential of $-$ 80 mV in the majorityof neurons. In addition, this treatment reduced outward synapticcurrents at a holding potential of $-$ 20 mV, indicating that inhibitoryinterneuronal input was often activated by LL or CIC afferents.A minority of neurons had synaptic currents that were unaffectedby glutamate receptor antagonists, but it was more common forCIC-evoked currents to be unaffected (38%) rather than LL-evokedcurrents (22%). The CIC provided a strong inhibitory input thatwas almost exclusively GABAergic, whereas the LL inhibition oftenincluded a glycinergic component. These experiments have shownthat the CIC provides a major glutamatergic and GABAergic inputto most ICC neurons. However, much of the inhibitory input fromboth the CIC and the LL appears to be mediated by interneuronalconnections.

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