Abstract
The pathophysiology of affective disorders—particularly circuit-level mechanisms underlying bidirectional, periodic affective state transitions—remains poorly understood. In patients, disruptions of sleep and circadian rhythm can trigger transitions to manic episodes, whereas depressive states are reversed. Here, we introduce a hybrid automated sleep deprivation platform to induce transitions of affective states in mice. Acute sleep loss causes mixed behavioral states, featuring hyperactivity, elevated social and sexual behaviors, and diminished depressive-like behaviors, where transitions depend on dopamine (DA). Using DA sensor photometry and projection-targeted chemogenetics, we reveal that elevated DA release in specific brain regions mediates distinct behavioral changes in affective state transitions. Acute sleep loss induces DA-dependent enhancement in dendritic spine density and uncaging-evoked dendritic spinogenesis in the medial prefrontal cortex, whereas optically mediated disassembly of enhanced plasticity reverses the antidepressant effects of sleep deprivation on learned helplessness. These findings demonstrate that brain-wide dopaminergic pathways control sleep-loss-induced polymodal affective state transitions.
| Original language | English (US) |
|---|---|
| Pages (from-to) | 141-154.e8 |
| Journal | Neuron |
| Volume | 112 |
| Issue number | 1 |
| DOIs | |
| State | Published - Jan 3 2024 |
Funding
The authors thank Lindsey Butler for mouse colony management and Jianyu Gu for generating EEG power spectra. This work was supported by the 2021 One Mind Nick LeDeit Rising Star Research Award , BD 2 : Breakthrough Discoveries for Thriving with Bipolar Disorder, NINDS ( R01NS107539 ), NIMH ( R01MH117111 ), and the Rita Allen Foundation Scholar Award (Y.K.). M.W. was the Christina Enroth-Cugell and David Cugell fellow and affiliated with T32AG20506 . V.D. was a fellow of the American Heart Association ( 19PRE34380056 ) and affiliated with 2T32GM15538 . The authors thank Lindsey Butler for mouse colony management and Jianyu Gu for generating EEG power spectra. This work was supported by the 2021 One Mind Nick LeDeit Rising Star Research Award, BD2: Breakthrough Discoveries for Thriving with Bipolar Disorder, NINDS (R01NS107539), NIMH (R01MH117111), and the Rita Allen Foundation Scholar Award (Y.K.). M.W. was the Christina Enroth-Cugell and David Cugell fellow and affiliated with T32AG20506. V.D. was a fellow of the American Heart Association (19PRE34380056) and affiliated with 2T32GM15538. Conceptualization, M.W. and Y.K.; methodology, M.W. and Y.K.; formal analysis, M.W. X.Z. and S.N.F.; data curation, M.W. X.Z. and S.F.; investigation, M.W. X.Z. S.F. S.N.F. P.K. and V.D.; writing – original draft, M.W. and Y.K.; writing – review & editing, M.W. X.Z. S.F. S.N.F. P.K. V.D. and Y.K.; funding acquisition, Y.K.; supervision, Y.K. The authors declare no competing interests. We support inclusive, diverse, and equitable conduct of research.
Keywords
- affective state
- chemogenetics
- dopamine
- photometry
- plasticity
- sleep
ASJC Scopus subject areas
- General Neuroscience