Antipsychotic drug efficacy correlates with the modulation of D1 rather than D2 receptor-expressing striatal projection neurons

Seongsik Yun; Ben Yang; Justin D. Anair; Madison M. Martin; Stefan W. Fleps; Arin Pamukcu; Nai Hsing Yeh; Anis Contractor; Ann Kennedy; Jones G. Parker

doi:10.1038/s41593-023-01390-9

Antipsychotic drug efficacy correlates with the modulation of D1 rather than D2 receptor-expressing striatal projection neurons

Seongsik Yun, Ben Yang, Justin D. Anair, Madison M. Martin, Stefan W. Fleps, Arin Pamukcu, Nai Hsing Yeh, Anis Contractor, Ann Kennedy, Jones G. Parker^*

^*Corresponding author for this work

Neuroscience

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Elevated dopamine transmission in psychosis is assumed to unbalance striatal output through D1- and D2-receptor-expressing spiny-projection neurons (SPNs). Antipsychotic drugs are thought to re-balance this output by blocking D2 receptors (D2Rs). In this study, we found that amphetamine-driven dopamine release unbalanced D1-SPN and D2-SPN Ca²⁺ activity in mice, but that antipsychotic efficacy was associated with the reversal of abnormal D1-SPN, rather than D2-SPN, dynamics, even for drugs that are D2R selective or lacking any dopamine receptor affinity. By contrast, a clinically ineffective drug normalized D2-SPN dynamics but exacerbated D1-SPN dynamics under hyperdopaminergic conditions. Consistent with antipsychotic effect, selective D1-SPN inhibition attenuated amphetamine-driven changes in locomotion, sensorimotor gating and hallucination-like perception. Notably, antipsychotic efficacy correlated with the selective inhibition of D1-SPNs only under hyperdopaminergic conditions—a dopamine-state-dependence exhibited by D1R partial agonism but not non-antipsychotic D1R antagonists. Our findings provide new insights into antipsychotic drug mechanism and reveal an important role for D1-SPN modulation.

Original language	English (US)
Pages (from-to)	1417-1428
Number of pages	12
Journal	Nature neuroscience
Volume	26
Issue number	8
DOIs	https://doi.org/10.1038/s41593-023-01390-9
State	Published - Aug 2023

Funding

We thank B. Ahanonu for assistance in data processing, P. J. Conn for providing VU0467154, J. I. Sanders and A. Kepecs for guidance in setting up the task to measure HALIP and L. Pinto for help with psychometric modeling of behavior. S.Y., B.Y., J.D.A., M.M.M., S.W.F. and J.G.P. were funded by National Institute of Mental Health (NIMH) K01MH113132, National Institute of Neurological Disorders and Stroke R01NS122840 and the Whitehall Foundation. A.P. and A.K. were funded by Aligning Science Across Parkinson’s ASAP-020551 through the Michael J. Fox Foundation for Parkinson’s Research. N.-H.Y. and A.C. were funded by NIMH R01MH099114.

ASJC Scopus subject areas

General Neuroscience

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title = "Antipsychotic drug efficacy correlates with the modulation of D1 rather than D2 receptor-expressing striatal projection neurons",

abstract = "Elevated dopamine transmission in psychosis is assumed to unbalance striatal output through D1- and D2-receptor-expressing spiny-projection neurons (SPNs). Antipsychotic drugs are thought to re-balance this output by blocking D2 receptors (D2Rs). In this study, we found that amphetamine-driven dopamine release unbalanced D1-SPN and D2-SPN Ca2+ activity in mice, but that antipsychotic efficacy was associated with the reversal of abnormal D1-SPN, rather than D2-SPN, dynamics, even for drugs that are D2R selective or lacking any dopamine receptor affinity. By contrast, a clinically ineffective drug normalized D2-SPN dynamics but exacerbated D1-SPN dynamics under hyperdopaminergic conditions. Consistent with antipsychotic effect, selective D1-SPN inhibition attenuated amphetamine-driven changes in locomotion, sensorimotor gating and hallucination-like perception. Notably, antipsychotic efficacy correlated with the selective inhibition of D1-SPNs only under hyperdopaminergic conditions—a dopamine-state-dependence exhibited by D1R partial agonism but not non-antipsychotic D1R antagonists. Our findings provide new insights into antipsychotic drug mechanism and reveal an important role for D1-SPN modulation.",

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Antipsychotic drug efficacy correlates with the modulation of D1 rather than D2 receptor-expressing striatal projection neurons

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