RRC ID 65276
著者 Salzberg Y, Pechuk V, Gat A, Setty H, Sela S, Oren-Suissa M.
タイトル Synaptic Protein Degradation Controls Sexually Dimorphic Circuits through Regulation of DCC/UNC-40.
ジャーナル Curr Biol
Abstract Sexually dimorphic circuits underlie behavioral differences between the sexes, yet the molecular mechanisms involved in their formation are poorly understood. We show here that sexually dimorphic connectivity patterns arise in C. elegans through local ubiquitin-mediated protein degradation in selected synapses of one sex but not the other. Specifically, synaptic degradation occurs via binding of the evolutionary conserved E3 ligase SEL-10/FBW7 to a phosphodegron binding site of the netrin receptor UNC-40/DCC (Deleted in Colorectal Cancer), resulting in degradation of UNC-40. In animals carrying an undegradable unc-40 gain-of-function allele, synapses were retained in both sexes, compromising the activity of the circuit without affecting neurite guidance. Thus, by decoupling the synaptic and guidance functions of the netrin pathway, we reveal a critical role for dimorphic protein degradation in controlling neuronal connectivity and activity. Additionally, the interaction between SEL-10 and UNC-40 is necessary not only for sex-specific synapse pruning, but also for other synaptic functions. These findings provide insight into the mechanisms that generate sex-specific differences in neuronal connectivity, activity, and function.
巻・号 30(21)
ページ 4128-4141.e5
公開日 2020-11-2
DOI 10.1016/j.cub.2020.08.002
PII S0960-9822(20)31156-8
PMID 32857970
PMC PMC7658809
MeSH Alleles Animals Animals, Genetically Modified Axons / metabolism Caenorhabditis elegans Caenorhabditis elegans Proteins / genetics Caenorhabditis elegans Proteins / metabolism* Cell Adhesion Molecules / genetics Cell Adhesion Molecules / metabolism* Cell Cycle Proteins / metabolism* Gain of Function Mutation Male Proteolysis Sex Characteristics* Synapses / metabolism* Synaptic Transmission / physiology* Ubiquitination / genetics
リソース情報
線虫 tm2235