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Dopamine Receptor Dop1R2 Stabilizes Appetitive Olfactory Memory through the Raf/MAPK Pathway in<i>Drosophila</i>

Huan Sun, Tomoki Nishioka, Shun Hiramatsu, Shu Kondo, Mutsuki Amano, Kozo Kaibuchi, Toshiharu Ichinose, Hiromu Tanimoto

2020Journal of Neuroscience31 citationsDOIOpen Access PDF

Abstract

In Drosophila , dopamine signaling to the mushroom body intrinsic neurons, Kenyon cells (KCs), is critical to stabilize olfactory memory. Little is known about the downstream intracellular molecular signaling underlying memory stabilization. Here we address this question in the context of sugar-rewarded olfactory long-term memory (LTM). We show that associative training increases the phosphorylation of MAPK in KCs, via Dop1R2 signaling. Consistently, the attenuation of Dop1R2 , Raf , or MAPK expression in KCs selectively impairs LTM, but not short-term memory. Moreover, we show that the LTM deficit caused by the knockdown of Dop1R2 can be rescued by expressing active Raf in KCs. Thus, the Dop1R2/Raf/MAPK pathway is a pivotal downstream effector of dopamine signaling for stabilizing appetitive olfactory memory. SIGNIFICANCE STATEMENT Dopaminergic input to the Kenyon cells (KCs) is pivotal to stabilize memory in Drosophila . This process is mediated by dopamine receptors like Dop1R2. Nevertheless, little is known for its underlying molecular mechanism. Here we show that the Raf/MAPK pathway is specifically engaged in appetitive long-term memory in KCs. With combined biochemical and behavioral experiments, we reveal that activation of the Raf/MAPK pathway is regulated through Dop1R2, shedding light on how dopamine modulates intracellular signaling for memory stabilization.

Topics & Concepts

Mushroom bodiesNeuroscienceDopamineMAPK/ERK pathwayDopaminergicBiologyDopamine receptorOlfactory memorySignal transductionCell biologyDrosophila melanogasterCentral nervous systemOlfactory bulbGeneticsGeneNeurobiology and Insect Physiology ResearchInvertebrate Immune Response MechanismsAnimal Behavior and Reproduction