Literature DB >> 28712652

Serotonergic Modulation Enables Pathway-Specific Plasticity in a Developing Sensory Circuit in Drosophila.

Takuya Kaneko1, Ann Marie Macara2, Ruonan Li1, Yujia Hu1, Kenichi Iwasaki1, Zane Dunnings1, Ethan Firestone1, Shawn Horvatic3, Ananya Guntur4, Orie T Shafer5, Chung-Hui Yang4, Jie Zhou3, Bing Ye6.   

Abstract

How experiences during development cause long-lasting changes in sensory circuits and affect behavior in mature animals are poorly understood. Here we establish a novel system for mechanistic analysis of the plasticity of developing neural circuits by showing that sensory experience during development alters nociceptive behavior and circuit physiology in Drosophila larvae. Despite the convergence of nociceptive and mechanosensory inputs on common second-order neurons (SONs), developmental noxious input modifies transmission from nociceptors to their SONs, but not from mechanosensors to the same SONs, which suggests striking sensory pathway specificity. These SONs activate serotonergic neurons to inhibit nociceptor-to-SON transmission; stimulation of nociceptors during development sensitizes nociceptor presynapses to this feedback inhibition. Our results demonstrate that, unlike associative learning, which involves inputs from two sensory pathways, sensory pathway-specific plasticity in the Drosophila nociceptive circuit is in part established through feedback modulation. This study elucidates a novel mechanism that enables pathway-specific plasticity in sensory systems. VIDEO ABSTRACT.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Drosophila; development; neural circuit; nociceptive behavior; nociceptive circuit; pathway-specific; plasticity; presynaptic inhibition; sensory system; serotonin

Mesh:

Year:  2017        PMID: 28712652      PMCID: PMC5555049          DOI: 10.1016/j.neuron.2017.06.034

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


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