Glycinergic and GABAergic calcium responses in the developing lateral superior olive

Abstract

The lateral superior olive (LSO), a binaural nucleus involved in sound localization, receives tonotopically organized inhibitory inputs from the medial nucleus of the trapezoid body (MNTB). During development, the tonotopic organization of this glycinergic/GABAergic MNTB–LSO pathway is established by activity‐dependent axonal reorganization. However, the underlying mechanisms by which this reorganization takes place have remained largely unknown. As cytosolic calcium is one of the most important second messengers responsible for inducing synaptic plasticity and reorganization, we examined whether and how activity in the MNTB–LSO pathway changes the intracellular calcium concentration ([Ca²⁺]_i) in developing LSO neurons. By applying calcium imaging techniques to Fura‐2‐labelled slices from neonatal rats and mice, we found that glycine and GABA (γ‐aminobutyric acid) affect [Ca²⁺]_i in LSO neurons in an age‐dependent manner; during the first postnatal week, the period at which glycine and GABA are depolarizing in the LSO, glycine and GABA always increased [Ca²⁺]_i. However, in 2‐week‐old animals, the time around hearing onset when glycine and GABA are hyperpolarizing, glycine and GABA slightly decreased [Ca²⁺]_i. Calcium responses could also be elicited by stimulation of afferent fibres from the MNTB, and these synaptic responses were mediated by glycine and GABA_A receptors. Furthermore, GABA, which is a neurotransmitter only in the immature MNTB–LSO pathway, played a major role in generating MNTB‐elicited Ca²⁺ responses. The direct link of glycinergic/GABAergic synaptic activity to intracellular calcium signalling during the period of inhibitory synaptic plasticity could be one of the mechanisms by which tonotopic MNTB–LSO connections become established.