Plasticity of the auditory brainstem: Cochleotomy‐induced changes of calbindin‐D28k expression in the rat

Calbindin is a calcium binding protein that is characteristically expressed in several auditory brainstem nuclei during ontogeny and is thought to serve as a buffer, protecting cells against toxic levels of calcium. Upon maturation, calbindin is drastically reduced or entirely lost in many auditory nuclei. We made cochleotomies in mature rats to study effects of deafening and deafferentation on the expression of calbindin in the auditory brainstem. Following unilateral cochleotomy, we observed a substantial increase in the number of calbindin‐immunoreactive fibers and boutons in the ventral subdivisions of the ipsilateral cochlear nucleus. At the same time, calbindin‐positive astrocytes emerged in the dorsal and ventral cochlear nucleus. Beyond the immediately affected ipsilateral cochlear nucleus, we found calbindin‐positive neurons in the lateral superior olive and in the central inferior colliculus, both contralateral to the operation. The loss of one cochlea reduces auditory input and puts the flow of neuronal activity originating in the two ears out of balance. Our findings indicate that the need for the neuronal networks in the auditory brainstem to adjust to this drastically changed pattern of sensory signals invokes the expression of calbindin in glial cells as well as in directly and indirectly affected neuronal cell populations. J. Comp. Neurol. 416:173–187, 2000. © 2000 Wiley‐Liss, Inc.