Shared mushroom body circuits underlie visual and olfactory memories in Drosophila

Shared mushroom body circuits underlie visual and olfactory memories in Drosophila

In nature, animals form memories associating reward or punishment with stimuli from different sensory modalities, such as smells and colors. It is unclear, however, how distinct sensory memories are processed in the brain. We established appetitive and aversive visual learning assays for Drosophila...

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Main Authors: Katrin Vogt, Christopher Schnaitmann, Kristina V Dylla, Stephan Knapek, Yoshinori Aso, Gerald M Rubin, Hiromu Tanimoto
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2014-08-01
Series:eLife
Subjects:
associative memory
dopamine neuron
visual learning
Online Access:https://elifesciences.org/articles/02395
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spelling doaj-7eeb4eab23d94b5a9aa2b26cc8ee28b32021-05-04T23:25:23ZengeLife Sciences Publications LtdeLife2050-084X2014-08-01310.7554/eLife.02395Shared mushroom body circuits underlie visual and olfactory memories in DrosophilaKatrin Vogt0Christopher Schnaitmann1Kristina V Dylla2Stephan Knapek3Yoshinori Aso4Gerald M Rubin5Hiromu Tanimoto6Max-Planck-Institute of Neurobiology, Martinsried, GermanyMax-Planck-Institute of Neurobiology, Martinsried, GermanyMax-Planck-Institute of Neurobiology, Martinsried, GermanyMax-Planck-Institute of Neurobiology, Martinsried, GermanyJanelia Farm Research Campus, Howard Hughes Medical Institute, Ashburn, United StatesJanelia Farm Research Campus, Howard Hughes Medical Institute, Ashburn, United StatesMax-Planck-Institute of Neurobiology, Martinsried, Germany; Graduate School of Life Sciences, Tohoku University, Sendai, JapanIn nature, animals form memories associating reward or punishment with stimuli from different sensory modalities, such as smells and colors. It is unclear, however, how distinct sensory memories are processed in the brain. We established appetitive and aversive visual learning assays for Drosophila that are comparable to the widely used olfactory learning assays. These assays share critical features, such as reinforcing stimuli (sugar reward and electric shock punishment), and allow direct comparison of the cellular requirements for visual and olfactory memories. We found that the same subsets of dopamine neurons drive formation of both sensory memories. Furthermore, distinct yet partially overlapping subsets of mushroom body intrinsic neurons are required for visual and olfactory memories. Thus, our results suggest that distinct sensory memories are processed in a common brain center. Such centralization of related brain functions is an economical design that avoids the repetition of similar circuit motifs.https://elifesciences.org/articles/02395associative memorydopamine neuronvisual learning
collection DOAJ
language English
format Article
sources DOAJ
author Katrin Vogt
Christopher Schnaitmann
Kristina V Dylla
Stephan Knapek
Yoshinori Aso
Gerald M Rubin
Hiromu Tanimoto
spellingShingle Katrin Vogt
Christopher Schnaitmann
Kristina V Dylla
Stephan Knapek
Yoshinori Aso
Gerald M Rubin
Hiromu Tanimoto
Shared mushroom body circuits underlie visual and olfactory memories in Drosophila
eLife
associative memory
dopamine neuron
visual learning
author_facet Katrin Vogt
Christopher Schnaitmann
Kristina V Dylla
Stephan Knapek
Yoshinori Aso
Gerald M Rubin
Hiromu Tanimoto
author_sort Katrin Vogt
title Shared mushroom body circuits underlie visual and olfactory memories in Drosophila
title_short Shared mushroom body circuits underlie visual and olfactory memories in Drosophila
title_full Shared mushroom body circuits underlie visual and olfactory memories in Drosophila
title_fullStr Shared mushroom body circuits underlie visual and olfactory memories in Drosophila
title_full_unstemmed Shared mushroom body circuits underlie visual and olfactory memories in Drosophila
title_sort shared mushroom body circuits underlie visual and olfactory memories in drosophila
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2014-08-01
description In nature, animals form memories associating reward or punishment with stimuli from different sensory modalities, such as smells and colors. It is unclear, however, how distinct sensory memories are processed in the brain. We established appetitive and aversive visual learning assays for Drosophila that are comparable to the widely used olfactory learning assays. These assays share critical features, such as reinforcing stimuli (sugar reward and electric shock punishment), and allow direct comparison of the cellular requirements for visual and olfactory memories. We found that the same subsets of dopamine neurons drive formation of both sensory memories. Furthermore, distinct yet partially overlapping subsets of mushroom body intrinsic neurons are required for visual and olfactory memories. Thus, our results suggest that distinct sensory memories are processed in a common brain center. Such centralization of related brain functions is an economical design that avoids the repetition of similar circuit motifs.
topic associative memory
dopamine neuron
visual learning
url https://elifesciences.org/articles/02395
work_keys_str_mv AT katrinvogt sharedmushroombodycircuitsunderlievisualandolfactorymemoriesindrosophila
AT christopherschnaitmann sharedmushroombodycircuitsunderlievisualandolfactorymemoriesindrosophila
AT kristinavdylla sharedmushroombodycircuitsunderlievisualandolfactorymemoriesindrosophila
AT stephanknapek sharedmushroombodycircuitsunderlievisualandolfactorymemoriesindrosophila
AT yoshinoriaso sharedmushroombodycircuitsunderlievisualandolfactorymemoriesindrosophila
AT geraldmrubin sharedmushroombodycircuitsunderlievisualandolfactorymemoriesindrosophila
AT hiromutanimoto sharedmushroombodycircuitsunderlievisualandolfactorymemoriesindrosophila
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