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1.
PNAS Nexus ; 2(3): pgad044, 2023 Mar.
Article in English | MEDLINE | ID: mdl-36909827

ABSTRACT

Dopamine neurotransmission in the striatum is central to many normal and disease functions. Ventral midbrain dopamine neurons exhibit ongoing tonic firing that produces low extrasynaptic levels of dopamine below the detection of conventional extrasynaptic cyclic voltammetry (∼10-20 nanomolar), with superimposed bursts that can saturate the dopamine uptake transporter and produce transient micromolar concentrations. The bursts are known to lead to marked presynaptic plasticity via multiple mechanisms, but analysis methods for these kinetic parameters are limited. To provide a deeper understanding of the mechanics of the modulation of dopamine neurotransmission by physiological, genetic, and pharmacological means, we present three computational models of dopamine release with different levels of spatiotemporal complexity to analyze in vivo fast-scan cyclic voltammetry recordings from the dorsal striatum of mice. The models accurately fit to cyclic voltammetry data and provide estimates of presynaptic dopamine facilitation/depression kinetics and dopamine transporter reuptake kinetics, and we used the models to analyze the role of synuclein proteins in neurotransmission. The models' results support recent findings linking the presynaptic protein α-synuclein to the short-term facilitation and long-term depression of dopamine release, as well as reveal a new role for ß-synuclein and/or γ-synuclein in the long-term regulation of dopamine reuptake.

2.
Cereb Cortex ; 31(6): 2868-2885, 2021 05 10.
Article in English | MEDLINE | ID: mdl-33497440

ABSTRACT

Food restriction (FR) evokes running, which may promote adaptive foraging in times of food scarcity, but can become lethal if energy expenditure exceeds caloric availability. Here, we demonstrate that chemogenetic activation of either the general medial prefrontal cortex (mPFC) pyramidal cell population, or the subpopulation projecting to dorsal striatum (DS) drives running specifically during hours preceding limited food availability, and not during ad libitum food availability. Conversely, suppression of mPFC pyramidal cells generally, or targeting mPFC-to-DS cells, reduced wheel running specifically during FR and not during ad libitum food access. Post mortem c-Fos analysis and electron microscopy of mPFC layer 5 revealed distinguishing characteristics of mPFC-to-DS cells, when compared to neighboring non-DS-projecting pyramidal cells: 1) greater recruitment of GABAergic activity and 2) less axo-somatic GABAergic innervation. Together, these attributes position the mPFC-to-DS subset of pyramidal cells to dominate mPFC excitatory outflow, particularly during FR, revealing a specific and causal role for mPFC-to-DS control of the decision to run during food scarcity. Individual differences in GABAergic activity correlate with running response to further support this interpretation. FR enhancement of PFC-to-DS activity may influence neural circuits both in studies using FR to motivate animal behavior and in human conditions hallmarked by FR.


Subject(s)
Caloric Restriction/trends , Decision Making/physiology , Energy Metabolism/physiology , Nerve Net/metabolism , Prefrontal Cortex/metabolism , Running/physiology , Animals , Decision Making/drug effects , Energy Metabolism/drug effects , Female , Mice , Mice, Inbred C57BL , Motor Activity , Nerve Net/chemistry , Nerve Net/drug effects , Piperazines/administration & dosage , Piperazines/metabolism , Prefrontal Cortex/chemistry , Prefrontal Cortex/drug effects , Pyramidal Cells/chemistry , Pyramidal Cells/drug effects , Pyramidal Cells/metabolism , Running/psychology
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