AI Article Synopsis
- Dopamine levels in the nucleus accumbens increase as animals move toward their goals, which challenges previous beliefs about dopamine's role in the brain.
- Researchers tested whether this increase was related to local acetylcholine release, recording both signals in rats during a motivated task.
- The findings indicated that dopamine and acetylcholine functions are mostly independent and interact differently depending on the phase of the task, suggesting distinct underlying mechanisms for each neurotransmitter.
Article Abstract
Dopamine in the nucleus accumbens ramps up as animals approach desired goals. These ramps have received intense scrutiny because they seem to violate long-held hypotheses on dopamine function. Furthermore, it has been proposed that they are driven by local acetylcholine release, i.e., that they are mechanistically separate from dopamine signals related to reward prediction errors. Here, we tested this hypothesis by simultaneously recording accumbal dopamine and acetylcholine signals in rats executing a task involving motivated approach. Contrary to recent reports, we found that dopamine ramps were not coincidental with changes in acetylcholine. Instead, we found that acetylcholine could be positively, negatively, or uncorrelated with dopamine depending on whether the task phase was determined by a salient cue, reward prediction error, or active approach, respectively. Our results suggest that accumbal dopamine and acetylcholine are largely independent but may combine to engage different postsynaptic mechanisms depending on the behavioral task states.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11092761 | PMC |
| http://dx.doi.org/10.1101/2024.05.03.592439 | DOI Listing |
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