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Widespread posttranscriptional regulation of cotransmission

Nannan Chen, Yunpeng Zhang, Emmanuel J. Rivera-Rodriguez, Albert D. Yu, Michael Hobin, Michael Rosbash, Leslie C. Griffith

2023Science Advances32 citationsDOIOpen Access PDF

Abstract

While neurotransmitter identity was once considered singular and immutable for mature neurons, it is now appreciated that one neuron can release multiple neuroactive substances (cotransmission) whose identities can even change over time. To explore the mechanisms that tune the suite of transmitters a neuron releases, we developed transcriptional and translational reporters for cholinergic, glutamatergic, and GABAergic signaling in Drosophila . We show that many glutamatergic and GABAergic cells also transcribe cholinergic genes, but fail to accumulate cholinergic effector proteins. Suppression of cholinergic signaling involves posttranscriptional regulation of cholinergic transcripts by the microRNA miR-190; chronic loss of miR-190 function allows expression of cholinergic machinery, reducing and fragmenting sleep. Using a “translation-trap” strategy, we show that neurons in these populations have episodes of transient translation of cholinergic proteins, demonstrating that suppression of cotransmission is actively modulated. Posttranscriptional restriction of fast transmitter cotransmission provides a mechanism allowing reversible tuning of neuronal output.

Topics & Concepts

CholinergicGlutamatergicNeuroscienceGABAergicBiologyCholinergic neuronNeuronTranslation (biology)Cell biologyGlutamate receptorGeneGeneticsMessenger RNAInhibitory postsynaptic potentialReceptorNeurobiology and Insect Physiology ResearchCRISPR and Genetic EngineeringGenetics, Aging, and Longevity in Model Organisms
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