Abstract
AbstractStriatal dopamine released from the axons of midbrain dopamine neurons has been linked to a wide range of functions, including movement control and reward-based learning. Recent studies have reported functional signaling differences between axons and somas of dopamine neurons, suggesting that local modulation controls dopamine release and calling into question the classical view of somatic control. However, these experiments are technically challenging, making it difficult to ensure that axonal and somatic recordings come from the same neurons, particularly given the heterogeneity of dopaminergic cell types. Here we used genetic strategies to isolate key dopaminergic neuron subtypes and monitor their axonal and somatic signaling patterns in behaving mice. Contrary to the inferences drawn from previous studies, these experiments revealed a robust correlation between somatic and axonal signaling. Thus, by exploiting a previously unknown connection between genetic and functional diversity in dopamine neurons, we establish that subtypes must be considered to understand the mechanisms of dopamine release in striatum during behavior.
Publisher
Cold Spring Harbor Laboratory
Cited by
3 articles.
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