Topic: dopamine signaling

Seminar
5 seminars
ePoster
2 ePosters

Latest

SeminarNeuroscience

Mechanisms and Roles of Fast Dopamine Signaling

Pascal S. Kaeser, MD
Professor, Department of Neurobiology, Harvard Medical School, Boston, USA
May 10, 2022

Dopamine is a neuromodulator that codes information on various time scales. I will discuss recent progress on the identification of fast release mechanisms for dopamine in the mouse striatum. I will present data on triggering mechanisms of dopamine release and evaluate its roles in striatal regulation. In the long-term, our work will allow for a better understanding of the mechanisms and time scales of dopamine coding in health and disease.

SeminarNeuroscience

Phasic dopamine signaling in the homeostasis to action arc

Mitchell Roitman
University of Illinois at Chicago, USA
Oct 21, 2021
SeminarNeuroscienceRecording

A role for dopamine in value-free learning

Luke Coddington
Dudman lab, HHMI Janelia
Jul 14, 2021

Recent success in training artificial agents and robots derives from a combination of direct learning of behavioral policies and indirect learning via value functions. Policy learning and value learning employ distinct algorithms that depend upon evaluation of errors in performance and reward prediction errors, respectively. In mammals, behavioral learning and the role of mesolimbic dopamine signaling have been extensively evaluated with respect to reward prediction errors; but there has been little consideration of how direct policy learning might inform our understanding. I’ll discuss our recent work on classical conditioning in naïve mice (https://www.biorxiv.org/content/10.1101/2021.05.31.446464v1) that provides multiple lines of evidence that phasic dopamine signaling regulates policy learning from performance errors in addition to its well-known roles in value learning. This work points towards new opportunities for unraveling the mechanisms of basal ganglia control over behavior under both adaptive and maladaptive learning conditions.

SeminarNeuroscience

Dopaminergic modulation of synaptic plasticity in learning and psychiatric disorders

Sho Yagishita
University of Tokyo
Jun 28, 2021

Transient changes in dopamine activity in response to reward and punishment have been known to regulate reward-related learning. However, the cellular basis that detects the transient dopamine signaling has long been unclear. Using two-photon microscopy and optogenetics, I have shown that transient increases and decreases of dopamine modulate plasticity of dopamine D1 and D2 receptor-expressing cells in the nucleus accumbens, respectively. At the behavioral level, I characterized that these D1 and D2 cells cooperatively tune learning by generalization and discrimination learning. Interestingly, disturbance of the dopamine signaling impaired D2 cell plasticity and discrimination learning, which was analogous to salience misattribution seen in subjects with schizophrenia.

SeminarNeuroscienceRecording

Diurnal Variation in Rapid Dopamine Signaling and Reward-Associated Behaviors

Taylor Stowe
Wake Forest
Nov 18, 2020
ePosterNeuroscience

Cell-type-specific dopamine signaling in ventral hippocampus tracks anxiety

Arthur Godino, Marine Salery, Angelica M. Minier-Toribio, John F. Fullard, Eric M. Parise, Freddyson M. Martinez-Rivera, Carole Morel, Sarah Montgomery, Ming-Hu Han, Panagiotis Roussos, Eric Nestler
ePosterNeuroscience

Increased Dopamine Signaling in Caudate Nucleus Is Associated with Striatal Gene Co-expression In Individuals at Genetic Risk For Schizophrenia

Leonardo Sportelli, Daniel Eisenberg, Enrico D'Ambrosio, Roberta Passiatore, Alessandro Bertolino, Qiang Chen, Jasmine Czarapatac, Michael Gregory, Kira Griffiths, Thomas M. Hyde, Joel E. Kleinman, Antonio F. Pardiñas, Joo Heon Shin, Mattia Veronese, Caroline F. Zink, Oliver Howes, Karen Berman, Daniel R. Weinberger, Giulio Pergola

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