RRC ID 87629
著者 Takagi S, Takano S, Kubo T, Hashimoto Y, Morise S, Zeng X, Nose A.
タイトル Segment-specific axon guidance by Wnt/Fz signaling diversifies motor commands in Drosophila larvae.
ジャーナル Elife
Abstract Functional diversification of homologous neuronal microcircuits is a widespread feature observed across brain regions, as well as across species, while its molecular and developmental mechanisms remain largely unknown. We address this question in Drosophila larvae by focusing on segmentally homologous Wave command-like neurons, which diversify their wiring and function in a segment-specific manner. Anterior Wave (a-Wave) neurons extend axons anteriorly and connect to circuits inducing backward locomotion, whereas posterior Wave (p-Wave) neurons extend axons posteriorly and trigger forward locomotion. Here, we show that Frizzled receptors DFz2 and DFz4, together with the DWnt4 ligand, regulate the segment-specific Wave axon projection. DFz2 knockdown (KD) not only reroutes Wave axons to posterior neuromeres but also biases its motor command to induce forward instead of backward locomotion as tactile response. Thus, segment-specific axon guidance diversifies the function of homologous command neurons in behavioral regulation. Since control of anterior-posterior (A-P) axon guidance by Wnt/Fz signaling is evolutionarily conserved, our results reveal a potentially universal molecular principle for formation and diversification of the command system in the nerve cord. Furthermore, this work indicates that sensorimotor transduction can be rerouted by manipulating a single gene in a single class of neurons, potentially facilitating the evolutionary flexibility in action selection.
巻・号 13
公開日 2025-9-25
DOI 10.7554/eLife.98624
PII 98624
PMID 40996811
PMC PMC12463391
MeSH Animals Axon Guidance* Axons / physiology Drosophila* / physiology Drosophila Proteins* / genetics Drosophila Proteins* / metabolism Drosophila melanogaster* / physiology Frizzled Receptors* / genetics Frizzled Receptors* / metabolism Larva / physiology Locomotion Signal Transduction* Wnt Proteins* / metabolism Wnt Signaling Pathway*
IF 7.08
リソース情報
ショウジョウバエ DGRC#108974 DGRC#118796