Receptor and transmitter release properties set the time course of retinal inhibition

Erika D. Eggers, Peter D. Lukasiewicz

Research output: Contribution to journalArticlepeer-review

62 Scopus citations

Abstract

Synaptic inhibition is determined by the properties of postsynaptic receptors, neurotransmitter release, and clearance, but little is known about how these factors shape sensation-evoked inhibition. The retina is an ideal system to investigate inhibition because it can be activated physiologically with light, and separate inhibitory pathways can be assayed by recording from rod bipolar cells that possess distinct glycine, GABAA, and GABA C receptors (R). We show that receptor properties differentially shape spontaneous IPSCs, whereas both transmitter release and receptor properties shape light-evoked (L) IPSCs. GABACR-mediated IPSCs decayed the slowest, whereas glycineR- and GABAAR-mediated IPSCs decayed more rapidly. Slow GABACRs determined the L-IPSC decay, whereas GABAARs and glycineRs, which mediated rapid onset responses, determined the start of the L-IPSC. Both fast and slow inhibitory inputs distinctly shaped the output of rod bipolar cells. The slow GABACRs truncated glutamate release, making the A17 amacrine cell L-EPSCs more transient, whereas the fast GABAAR and glycineRs reduced the initial phase of glutamate release, limiting the peak amplitude of the L-EPSC. Estimates of transmitter release time courses suggested that glycine release was more prolonged than GABA release. The time course of GABA release activating GABACRs was slower than that activating GABAARs, consistent with spillover activation of GABACRs. Thus, both postsynaptic receptor and transmitter release properties shape light-evoked inhibition in retina.

Original languageEnglish (US)
Pages (from-to)9413-9425
Number of pages13
JournalJournal of Neuroscience
Volume26
Issue number37
DOIs
StatePublished - Sep 13 2006
Externally publishedYes

Keywords

  • GABA
  • GABA receptor
  • GABA receptor
  • Glycine
  • Glycine receptor
  • IPSC
  • Inhibition
  • Light
  • Patch-clamp
  • Retina
  • Spillover

ASJC Scopus subject areas

  • General Neuroscience

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