Pre- and postsynaptic inhibition mediated by GABAB receptors in cerebellar inhibitory interneurons

Puah Mann-Metzer, Yosef Yarom*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

17 Scopus citations

Abstract

The inhibitory interneurons in the molecular layer of the cerebellar cortex form a complex network, interconnected by both chemical and electrotonic synapses. Previous work, using voltage optical imaging in an isolated cerebellum, has indicated that these interneurons also form presynaptic inhibitory interconnections. Here we examine the participation of GABAB receptors in the proposed presynaptic inhibition by recording from the molecular layer interneurons (MLI) in cerebellar slices. The GABAB agonist, baclofen, profoundly depressed synaptic transmission; a concentration of 10 μM decreased the frequency of spontaneous inhibitory synaptic potentials by 82 ± 15% and of miniature synaptic potentials by 75 ± 13%. In simultaneous recording from two synaptically interconnected MLIs, baclofen (10 μM) increased the failure rate of synaptic transmission by a factor of 3, confirming a presynaptic mechanism, most likely mediated by a decrease in calcium conductance. A postsynaptic effect of baclofen was also found; 10 μM decreased the spontaneous firing rate by 55 ± 19% even in the presence of synaptic blockers. One hundred micromolar baclofen induced an averaged hyperpolarization of 6 ± 2 mV or an averaged 7.8 ± 3 pA net outward current that can account for the decrease in firing rate. The outward current reflects a reduction in a tonic Ca2+ current, since it was abolished by blocking Ca2+ currents and remained unchanged in the presence of Ba2+. Application of the specific GABAB blocker, CGP 55845A (1 μM), not only reversed the effects of baclofen but also increased the spontaneous firing rate and synaptic activity when applied alone. Thus in slice preparations, GABAB receptors are tonically activated by endogenous GABA. The temporal role of GABAB receptors was tested using the paired-pulse paradigm. Recording from two synaptically interconnected MLIs showed a 3.5 times lower probability of release for the second stimulus. In the isolated cerebellar preparation, a robust depression of the second inhibitory response was observed. This depression was partially blocked by CGP 55845A (2 μM). We conclude that both the pre- and postsynaptic effects of baclofen are mediated by GABAB receptors that decrease Ca2+ currents. These can serve a modulatory role as well as participating in shaping the temporal interactions between consecutive inputs.

Original languageEnglish
Pages (from-to)183-190
Number of pages8
JournalJournal of Neurophysiology
Volume87
Issue number1
DOIs
StatePublished - 2002

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