RATIONALE: It has been proposed that dopamine (DA) sustains up states in striatal medium spiny neurons (MSN). Testing this hypothesis requires an in vitro preparation, but up states are typically only observed in vivo. OBJECTIVES: In this study, we used corticostriatal organotypic cocultures, a preparation in which up states have been previously observed, to test the DA control of cortically-driven plateau depolarizations. RESULTS: After 7-21 days in vitro in serum-free conditions, plateau depolarizations resembling up states were only observed in cultures with a critical extent of striatal DA innervation. These plateaus were completely blocked by the non-NMDA antagonist CNQX and significantly shortened by the NMDA antagonist APV or the D(1) antagonist SCH23390. Intracellular interruption of Ca(++) or protein-kinase A (PKA) signaling also eliminated the plateaus. The D(2) antagonist eticlopride failed to disrupt the plateaus, but significantly increased MSN excitability. CONCLUSIONS: These results suggest that coincident activation of corticostriatal glutamatergic and mesostriatal DA transmission may set ensembles of MSN into prolonged depolarizations through a D(1) enhancement of striatal NMDA function in a Ca(++) and PKA-dependent manner.
RATIONALE: It has been proposed that dopamine (DA) sustains up states in striatal medium spiny neurons (MSN). Testing this hypothesis requires an in vitro preparation, but up states are typically only observed in vivo. OBJECTIVES: In this study, we used corticostriatal organotypic cocultures, a preparation in which up states have been previously observed, to test the DA control of cortically-driven plateau depolarizations. RESULTS: After 7-21 days in vitro in serum-free conditions, plateau depolarizations resembling up states were only observed in cultures with a critical extent of striatal DA innervation. These plateaus were completely blocked by the non-NMDA antagonist CNQX and significantly shortened by the NMDA antagonist APV or the D(1) antagonist SCH23390. Intracellular interruption of Ca(++) or protein-kinase A (PKA) signaling also eliminated the plateaus. The D(2) antagonist eticlopride failed to disrupt the plateaus, but significantly increased MSN excitability. CONCLUSIONS: These results suggest that coincident activation of corticostriatal glutamatergic and mesostriatal DA transmission may set ensembles of MSN into prolonged depolarizations through a D(1) enhancement of striatal NMDA function in a Ca(++) and PKA-dependent manner.
Authors: John A Wolf; Jason T Moyer; Maciej T Lazarewicz; Diego Contreras; Marianne Benoit-Marand; Patricio O'Donnell; Leif H Finkel Journal: J Neurosci Date: 2005-10-05 Impact factor: 6.167
Authors: Marianela Garcia-Munoz; Eddy Taillefer; Reuven Pnini; Catherine Vickers; Jonathan Miller; Gordon W Arbuthnott Journal: Front Syst Neurosci Date: 2015-04-20
Authors: Fernando E Padovan-Neto; Stephen Sammut; Shreaya Chakroborty; Alexander M Dec; Sarah Threlfell; Peter W Campbell; Vishnu Mudrakola; John F Harms; Christopher J Schmidt; Anthony R West Journal: J Neurosci Date: 2015-04-08 Impact factor: 6.167