Arecoline desensitizes carbachol-stimulated phosphatidylinositol breakdown in rat brain cortices

Horng Mo Lee, Kuen Jer Tsai, Chien Huang Lin, Chung Lin Huang, Che Se Tung

Research output: Contribution to journalArticlepeer-review

4 Citations (Scopus)


To understand the effects of arecoline administration on the muscarinic cholinergic signaling pathway, rats were injected with arecoline, 10 mg/kg i.p., and the carbachol-stimulated phosphoinositide breakdown in rat brain cortical slices was examined. In vivo administration of arecoline resulted in inhibition of carbachol-stimulated phospholnositide turnover in rat brain cortical slices. Arecoline was a partial agonist with peak effects of 30% of the maximum as obtained with carbachol. Coaddition of arecoline inhibited the carbachol-stimulated phosphoinositide breakdown. Pretreatment of rat brain cortical slices with arecoline in vitro resulted in a dose-dependent inhibition of carbachol-stimulated [3H] inositol monophosphate accumulation. The inhibition occurred rapidly, with half-maximal inhibition occurring at 15 min and maximal inhibition achieved within 60 min. The inhibition of phosphoinositide breakdown was recovered 1 h after arecoline was removed. When synaptoneurosomes were used for the ligand binding studies, arecoline pretreatment was found to have decreased the maximal ligand binding (B(max)) without inducing any marked change in binding affinity (K(D)). The influence could be recovered by incubating the synaptoneurosomes in the absence of arecoline for 2 h. Taken together, these data suggest that the underlying mechanism by which phosphoinositide turnover is inhibited is arecoline- induced receptor sequestration.

Original languageEnglish
Pages (from-to)1189-1198
Number of pages10
JournalJournal of Neurochemistry
Issue number3
Publication statusPublished - Mar 1998


  • Arecoline
  • Brain cortical slices
  • Muscarinic receptor
  • Phosphoinositide breakdown
  • Receptor sequestration

ASJC Scopus subject areas

  • Biochemistry
  • Cellular and Molecular Neuroscience


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