Maturation of glycinergic inhibition in the gerbil medial superior olive after hearing onset

doi:10.1113/jphysiol.2005.094763

Maturation of glycinergic inhibition in the gerbil medial superior olive after hearing onset

Anna K Magnusson^1,2, Christoph Kapfer², Benedikt Grothe^1,2 and Ursula Koch^1,2

¹ Division of Neurobiology, Department Biologie II, Ludwig-Maximilians-University, Grosshadernerstrasse 2, D-82152 Martinsried, Germany
² Max Planck Institute of Neurobiology, Am Klopferspitz 18, D-82152 Martinsried, Germany

The neurones of the medial superior olive (MSO) are the mosttemporally sensitive neurones in the brain. They respond tothe arrival time difference of sound at the two ears with amicrosecond resolution; these interaural time differences areused to localize low-frequency sounds. In addition to the excitatoryinputs from each ear, the MSO neurones also receive binauralglycinergic projections, which have a critical role in soundlocalization processing. Recently, it was shown that the glycinergicinput to the MSO undergoes an experience-dependent structuralreorganization after hearing onset. To explore the maturationof inhibition during the development of sound localization ona cellular level, glycinergic currents and potentials were measuredin gerbil MSO principal cells from postnatal (P) day P12–P25by whole-cell patch-clamp recordings. The synaptic glycinergiccurrents accelerated to rapid decay kinetics ( $~$ 2 ms) and risetimes ( $~$ 0.4 ms) after hearing onset, reaching maturity aroundP17. Since the kinetics of miniature glycinergic currents didnot change with age, it is likely that a higher degree of transmitterrelease synchrony is the underlying mechanism influencing theacceleration of the kinetics. During the same period, the synapticglycinergic potentials accelerated four-fold, largely as a resultof a prominent decrease in input resistance. In accordance witha reorganization of the glycinergic inputs, the evoked peakconductances decreased more than two-fold, together with a three-foldreduction in the frequency of miniature events after hearingonset. These age-dependent changes were absent in animals thathad been reared in omni-directional noise, indicating that anexperience-dependent pruning of synaptic inputs is importantfor the maturation of functional inhibition in the MSO. Takentogether, these striking developmental adjustments of the glycinergicinhibition in the MSO most probably reflect an adaptation toimprove the encoding of auditory cues with great temporal precisionand fidelity during the maturation of sound localization behaviour.

(Received 15 July 2005; accepted after revision 5 August 2005; first published online 11 August 2005)
Corresponding author A. K. Magnusson: Division of Neurobiology, Department Biologie II, Ludwig-Maximilians-University, Grosshadernerstrasse 2, D-82152 Martinsried, Germany. Email: magnusson{at}zi.biologie.uni-muenchen.de

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