GAT-1 regulates both tonic and phasic GABAA receptor-mediated inhibition in the cerebral cortex

Luca Bragina, Ivan Marchionni, Azar Omrani, Andrea Cozzi, Domenico E. Pellegrini-Giampietro, Enrico Cherubini, Fiorenzo Conti

Research output: Contribution to journalArticlepeer-review


γ-Aminobutyric acid 1 (GAT-1) is the most copiously expressed GABA transporter; we studied its role in phasic and tonic inhibition in the neocortex using GAT-1 knockout (KO) mice. Immunoblotting and immunocytochemical studies showed that GAT-2 and GAT-3 levels in KOs were unchanged and that GAT-3 was not redistributed in KOs. Moreover, the expression of GAD65/67 was increased, whereas that of GABA or VGAT was unchanged. Microdialysis studies showed that in KOs spontaneous extracellular release of GABA and glutamate was comparable in WT and KO mice, whereas KCl-evoked output of GABA, but not of glutamate, was significantly increased in KOs. Recordings from layer II/III pyramids revealed a significant increase in GABAAR-mediated tonic conductance in KO mice. The frequency, amplitude and kinetics of spontaneous inhibitory post-synaptic currents (IPSCs) were unchanged, whereas the decay time of evoked IPSCs was significantly prolonged in KO mice. In KO mice, high frequency stimulation of GABAergic terminals induced large GABAAR-mediated inward currents associated with a reduction in amplitude and decay time of IPSCs evoked immediately after the train. The recovery process was slower in KO than in WT mice. These studies show that in the cerebral cortex of GAT-1 KO mice GAT-3 is not redistributed and GADs are adaptively changed and indicate that GAT-1 has a prominent role in both tonic and phasic GABAAR-mediated inhibition, in particular during sustained neuronal activity.

Original languageEnglish
Pages (from-to)1781-1793
Number of pages13
JournalJournal of Neurochemistry
Issue number5
Publication statusPublished - Jun 2008


  • Cerebral cortex
  • GABA
  • GABA transporters
  • Phasic inhibition
  • Tonic inhibition

ASJC Scopus subject areas

  • Biochemistry
  • Cellular and Molecular Neuroscience


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