Input from the inferior colliculus to medial olivocochlear neurons in the rat: A double label study with PHA-L and cholera toxin

Abstract

The inferior colliculus provides a strong descending influence capable of modulating the excitability levels of olivocochlear neurons (Rajan, 1990). In an attempt to anatomically demonstrate this pathway in rats, an experimental paradigm was designed by which anterogradely transported Phaseolus vulgaris-leucoagglutinin (PHA-L), which delineates axonal arbors, and retrogradely transported cholera toxin B subunit alone (CT-B) or conjugated to horseradish peroxidase (CT-HRP), which delineate dendritic arbors, are visualized in the same brainstem sections. PHA-L was injected unilaterally into the central nucleus of the inferior colliculus of adult rats 5–9 days prior to injection of CT-B or CT-HRP into either the contralateral or the ipsilateral cochlea. Descending collicular axons labeled with PHA-L densely innervate the ventral nucleus of the trapezoid body (VNTB), which contains neurons of the medial olivocochlear system (MOCS), but do not enter the lateral superior olive, where the neurons of the lateral olivocochlear system (LOCS) are found. The collicular projection to VNTB is largely ipsilateral and supplies mostly the ventral half of the nucleus. Within VNTB, the collicular fibers intermingle with dendrites and, to a lesser extent, cell bodies of MOCS. Collicular boutons, predominantly of the en passant type, are often observed in close apposition to dendrites and, less frequently, cell bodies of both crossed and uncrossed MOCS. These light microscopic results suggest the existence of direct, synaptic contacts between descending collicular axons and ipsilateral crossed and uncrossed MOCS. Numerous collicular boutons were also seen at a distance from MOCS, suggesting that they establish synapses with other neuron types of the VNTB that do not send their axons to the cochlea.