AI Article Synopsis
- Striatal dopamine (DA) is essential for regulating action and learning, with recent findings indicating that its release is inhibited by GABA in the striatum.
- The role of plasma membrane GABA uptake transporters (GATs), particularly GAT-1 and GAT-3 located on astrocytes and neurons, in influencing DA output has emerged as a key focus of the research.
- In a mouse model of early parkinsonism, reduced GAT levels lead to increased inhibition of DA release and highlight maladaptive changes affecting DA output in critical regions of the striatum.
Article Abstract
Striatal dopamine (DA) is critical for action and learning. Recent data show that DA release is under tonic inhibition by striatal GABA. Ambient striatal GABA tone on striatal projection neurons can be determined by plasma membrane GABA uptake transporters (GATs) located on astrocytes and neurons. However, whether striatal GATs and astrocytes determine DA output are unknown. We reveal that DA release in mouse dorsolateral striatum, but not nucleus accumbens core, is governed by GAT-1 and GAT-3. These GATs are partly localized to astrocytes, and are enriched in dorsolateral striatum compared to accumbens core. In a mouse model of early parkinsonism, GATs are downregulated, tonic GABAergic inhibition of DA release augmented, and nigrostriatal GABA co-release attenuated. These data define previously unappreciated and important roles for GATs and astrocytes in supporting DA release in striatum, and reveal a maladaptive plasticity in early parkinsonism that impairs DA output in vulnerable striatal regions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7532441 | PMC |
| http://dx.doi.org/10.1038/s41467-020-18247-5 | DOI Listing |
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