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The Journal of Neuroscience, March 1, 1999, 19(5):1675-1690

Somatic Recording of GABAergic Autoreceptor Current in Cerebellar Stellate and Basket Cells

Christophe Pouzat and Alain Marty

Arbeitsgruppe Zelluläre Neurobiologie, Max-Planck-Institut für Biophysikalische Chemie, 37077 Göttingen, Germany

Patch-clamp recordings were performed from stellate and basket cells in rat cerebellar slices. Under somatic voltage clamp, short depolarizing pulses were applied to elicit action potentials in the axon. After the action potential, a bicuculline- and Cd²⁺-sensitive current transient was observed. A similar response was obtained when eliciting axonal firing by extracellular stimulation. With an isotonic internal Cl solution, the peak amplitude of this current varied linearly with the holding potential, yielding an extrapolated reversal potential of 20 to 0 mV. Unlike synaptic or autaptic GABAergic currents obtained in the same preparation, the current transient had a slow rise-time and a low variability between trials. This current was blocked when 10 mM BAPTA was included in the recording solution. In some experiments, the current transient elicited axonal action potentials. The current transient was reliably observed in animals aged 12-15 d, with a mean amplitude of 82 pA at 70 mV, but was small and rare in the age group 29-49 d. Numerical simulations could account for all properties of the current transient by assuming that an action potential activates a distributed GABAergic conductance in the axon. The actual conductance is probably restricted to release sites, with an estimated mean presynaptic current response of 10 pA per site (70 mV, age 12-15 d). We conclude that in developing rats, stellate and basket cell axons have a high density of GABAergic autoreceptors and that a sizable fraction of the corresponding current can be measured from the soma.

Key words: cerebellum; basket cell; stellate cell; GABA; IPSCs; axon; autoreceptors; autapses

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Copyright © 1999 Society for Neuroscience  0270-6474/99/1951675-16$05.00/0

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