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1 Janelia Publications

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    09/01/22 | A serotonergic axon-cilium synapse drives nuclear signaling to maintain chromatin accessibility
    Shu-Hsien Sheu , Srigokul Upadhyayula , Vincent Dupuy , Song Pang , Andrew L. Lemire , Deepika Walpita , H. Amalia Pasolli , Fei Deng , Jinxia Wan , Lihua Wang , Justin Houser , Silvia Sanchez-Martinez , Sebastian E. Brauchi , Sambashiva Banala , Melanie Freeman , C. Shan Xu , Tom Kirchhausen , Harald F. Hess , Luke Lavis , Yu-Long Li , Séverine Chaumont-Dubel , David E. Clapham
    Cell. 2022 Sep 01;185(18):3390-3407. doi: 10.1016/j.cell.2022.07.026

    Chemical synapses between axons and dendrites mediate much of the brain’s intercellular communication. Here we describe a new kind of synapse – the axo-ciliary synapse - between axons and primary cilia. By employing enhanced focused ion beam – scanning electron microscopy on samples with optimally preserved ultrastructure, we discovered synapses between the serotonergic axons arising from the brainstem, and the primary cilia of hippocampal CA1 pyramidal neurons. Functionally, these cilia are enriched in a ciliary-restricted serotonin receptor, 5-hydroxytryptamine receptor 6 (HTR6), whose mutation is associated with learning and memory defects. Using a newly developed cilia-targeted serotonin sensor, we show that optogenetic stimulation of serotonergic axons results in serotonin release onto cilia. Ciliary HTR6 stimulation activates a non-canonical Gαq/11-RhoA pathway. Ablation of this pathway results in nuclear actin and chromatin accessibility changes in CA1 pyramidal neurons. Axo-ciliary synapses serve as a distinct mechanism for neuromodulators to program neuron transcription through privileged access to the nuclear compartment.

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