Sustained Gq-Protein Signaling Disrupts Striatal Circuits via JNK.
Luigi BellocchioAndrea Ruiz-CalvoAnna ChiarloneMagali CabanasEva ReselJean-René CazaletsCristina BlázquezYoon H ChoIsmael Galve-RoperhManuel GuzmánPublished in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2017)
The dorsal striatum is a major input structure of the basal ganglia and plays a key role in the control of vital processes such as motor behavior, cognition, and motivation. Whereas the Gs/Gi-protein-dependent tuning of striatal neurons is fairly well known, the precise impact and underlying mechanism of Gq-protein-dependent signals remain unclear. Here, we show that striatal circuits can be "turned on" by acute Gq-protein signaling or "turned off" by sustained Gq-protein signaling. Specifically, sustained Gq-protein signaling inactivates striatal neurons by an intracellular pathway that relies on cJun N-terminal kinase. Overall, this study sheds new light onto the molecular mechanism and functional relevance of Gq-protein-driven signals in striatal circuits under normal and overactivated states.