Long-Term Plasticity of Ipsilesional Medial Vestibular Nucleus Neurons After Unilateral Labyrinthectomy

doi:10.1152/jn.01140.2002

Long-Term Plasticity of Ipsilesional Medial Vestibular Nucleus Neurons After Unilateral Labyrinthectomy

Mathieu Beraneck¹, Mohammed Hachemaoui¹, Erwin Idoux¹, Laurence Ris², Atsuhiko Uno¹, Emile Godaux², Pierre-Paul Vidal¹, Lee E. Moore¹ and Nicolas Vibert¹

¹Laboratoire de Neurobiologie des Réseaux Sensorimoteurs, Centre National de la Recherche Scientifique, Unité Mixte de Recherche 7060, Université Paris 5, Centre Universitaire des Saints-Pères, 75270 Paris Cédex 06, France; and ²Laboratoire de Neurosciences, Université de Mons-Hainaut, 7000 Mons, Belgium

Submitted 18 December 2002; accepted in final form 12 March 2003

Unilateral labyrinthectomy results in oculomotor and posturaldisturbances that regress in a few days during vestibular compensation.The long-term (after 1 mo) consequences of unilateral labyrinthectomywere investigated by characterizing the static and dynamicmembrane properties of the ipsilesional vestibular neuronsrecorded intracellularly in guinea pig brain stem slices. Wecompared the responses of type A and type B medial vestibularnucleus neurons identified in vitro to current steps and rampsand to sinusoidal currents of various frequencies. All ipsilesionalvestibular neurons were depolarized by 6–10 mV at restcompared with the cells recorded from control slices. Boththeir average membrane potential and firing threshold weremore depolarized, which suggests that changes in active conductances compensated for the loss of excitatory afferents. The afterhyperpolarization and discharge regularity of type B but not type A neurons wereincreased. All ipsilesional vestibular cells became more sensitiveto current injections over a large range of frequencies (0.2–30Hz), but this increase in sensitivity was greater for typeB than for type A neurons. This was associated with an increaseof the peak frequency of linear response restricted to typeB neurons, from 4–6 to 12–14 Hz. Altogether, we show that long-term vestibular compensation involves major changesin the membrane properties of vestibular neurons on the deafferentedside. Many of the static and dynamic membrane properties oftype B neurons became more similar to those of type A neuronsthan in control slices, leading to an increase in the overallhomogeneity of medial vestibular nucleus neurons.

Address for reprint requests: N. Vibert, Laboratoire de Neurobiologie des Réseaux Sensorimoteurs, CNRS UMR 7060, Université Paris 5, 45 rue des Saints-Pères, 75270 Paris Cédex 06, France (E-mail: nivi{at}ccr.jussieu.fr).

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