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Activity induced GEM-4/Copine expression inhibits gap junctions and promotes thermosensory plasticity
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Activity induced GEM-4/Copine expression inhibits gap junctions and promotes thermosensory plasticity

Luna Gao, Sam Bates, Edward Pym, Stephen Nurrish, Piali Sengupta and Joshua M Kaplan
bioRxiv (Cold Spring Harbor Laboratory)
2026
PMID: 42039521

Abstract

MEF2 intrinsic excitability gap junctions CREB thermosensation
Activity regulated transcription modifies the intrinsic excitability of cells, which is proposed to promote neuronal and behavioral plasticity; however, the transcriptional targets involved have not been identified. Here, we identify a single MEF-2 and CRH-1/CREB transcriptional target, /Copine, whose expression in body muscles inhibits gap junction coupling, thereby increasing excitability. We show that also promotes a form of experience and CRH-1 dependent neuronal plasticity. Inactivating diminishes the ability of AFD thermosensory neurons to adjust their sensory response threshold following shifts in cultivation temperature. These results describe a mechanism linking activity regulated expression to the plasticity of intrinsic excitability and sensory responses.

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