Anatomical and Neurochemical Profiles of GABAergic Projection Neurons in the Mouse Inferior Colliculus

The inferior colliculus (IC) is a critical hub for the integration of auditory signals in the midbrain. Although both glutamatergic and GABAergic neurons in the IC project to the medial geniculate body (MGB), the detailed neurocircuitry and neurochemical properties of GABAergic projection neurons remain poorly understood. In this study, glutamate decarboxylase 67 (GAD67)-Cre mice and the viral vector were utilized to selectively visualize the axonal projections of GABAergic neurons in the IC. These neurons project predominantly to the medial division of MGB (MGv) and contralateral IC and minorly to the ventral nucleus of the trapezoid body. Importantly, GABAergic projections from both lemniscal and non-lemniscal regions of the IC primarily targeted the lemniscal division of the MGB, whereas those projections from the external cortex of the IC—part of the non-lemniscal pathway—additionally extended into non- lemniscal MGB subregions. Using a retrograde tracer, a substantial proportion of GABAergic projection neurons targeting the MGB and contralateral IC were positive for several neurochemical markers, implying that some GABAergic neurons send axon collaterals to both targets. Notably, GABAergic neurons constituted 10% of the total neuronal population in the IC, whereas GABAergic neurons accounted for approximately 20% of IC neurons projecting to the MGB or contralateral IC. Our results suggest that GABAergic projection neurons are more involved in the IC–MGB pathway than would be expected based on their proportion in the IC and may exert widespread influence on auditory processing via direct inhibition of the MGv and indirect modulation through suppression of the contralateral IC.