Different Kenyon Cell Populations Drive Learned Approach and Avoidance in Drosophila

Perisse, Emmanuel; Yin, Yan; Lin, Andrew C.; Lin, Suewei; Huetteroth, Wolf; Waddell, Scott

Publikation:
Different Kenyon Cell Populations Drive Learned Approach and Avoidance in Drosophila

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Perisse_289006.pdfGröße: 2.72 MBDownloads: 276

Datum

2013

Autor:innen

Perisse, Emmanuel

Yin, Yan

Lin, Andrew C.

Lin, Suewei

Huetteroth, Wolf

Waddell, Scott

Open Access-Veröffentlichung

Open Access Gold

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Biologie: Publikationen
Zukunftskolleg: Publikationen

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Neuron. 2013, 79(5), pp. 945-956. ISSN 0896-6273. eISSN 1097-4199. Available under: doi: 10.1016/j.neuron.2013.07.045

Zusammenfassung

In Drosophila, anatomically discrete dopamine neurons that innervate distinct zones of the mushroom body (MB) assign opposing valence to odors during olfactory learning. Subsets of MB neurons have temporally unique roles in memory processing, but valence-related organization has not been demonstrated. We functionally subdivided the αβ neurons, revealing a value-specific role for the ∼160 αβ core (αβ_c) neurons. Blocking neurotransmission from αβ surface (αβ_s) neurons revealed a requirement during retrieval of aversive and appetitive memory, whereas blocking αβ_c only impaired appetitive memory. The αβc were also required to express memory in a differential aversive paradigm demonstrating a role in relative valuation and approach behavior. Strikingly, both reinforcing dopamine neurons and efferent pathways differentially innervate αβ_c and αβs in the MB lobes. We propose that conditioned approach requires pooling synaptic outputs from across the αβ ensemble but only from the αβs for conditioned aversion.

Fachgebiet (DDC)

570 Biowissenschaften, Biologie

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ISO 690

PERISSE, Emmanuel, Yan YIN, Andrew C. LIN, Suewei LIN, Wolf HUETTEROTH, Scott WADDELL, 2013. Different Kenyon Cell Populations Drive Learned Approach and Avoidance in Drosophila. In: Neuron. 2013, 79(5), pp. 945-956. ISSN 0896-6273. eISSN 1097-4199. Available under: doi: 10.1016/j.neuron.2013.07.045

BibTex

@article{Perisse2013-09-04Diffe-28900,
  year={2013},
  doi={10.1016/j.neuron.2013.07.045},
  title={Different Kenyon Cell Populations Drive Learned Approach and Avoidance in Drosophila},
  number={5},
  volume={79},
  issn={0896-6273},
  journal={Neuron},
  pages={945--956},
  author={Perisse, Emmanuel and Yin, Yan and Lin, Andrew C. and Lin, Suewei and Huetteroth, Wolf and Waddell, Scott}
}

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    <dcterms:abstract xml:lang="eng">In Drosophila, anatomically discrete dopamine neurons that innervate distinct zones of the mushroom body (MB) assign opposing valence to odors during olfactory learning. Subsets of MB neurons have temporally unique roles in memory processing, but valence-related organization has not been demonstrated. We functionally subdivided the αβ neurons, revealing a value-specific role for the ∼160 αβ core (αβ&lt;sub&gt;c&lt;/sub&gt;) neurons. Blocking neurotransmission from αβ surface (αβ&lt;sub&gt;s&lt;/sub&gt;) neurons revealed a requirement during retrieval of aversive and appetitive memory, whereas blocking αβ&lt;sub&gt;c&lt;/sub&gt; only impaired appetitive memory. The αβc were also required to express memory in a differential aversive paradigm demonstrating a role in relative valuation and approach behavior. Strikingly, both reinforcing dopamine neurons and efferent pathways differentially innervate αβ&lt;sub&gt;c&lt;/sub&gt; and αβs in the MB lobes. We propose that conditioned approach requires pooling synaptic outputs from across the αβ ensemble but only from the αβs for conditioned aversion.</dcterms:abstract>
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Publikation: Different Kenyon Cell Populations Drive Learned Approach and Avoidance in Drosophila

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Publikation:
Different Kenyon Cell Populations Drive Learned Approach and Avoidance in Drosophila