逆转体
排序nexin
内体
细胞生物学
蛋白质亚单位
异三聚体G蛋白
化学
膜泡运输蛋白质类
转运蛋白
生物
液泡蛋白分选
生物化学
G蛋白
信号转导
基因
细胞内
作者
Qian Guo,Kai‐En Chen,Manuel Giménez-Andrés,Adam P. Jellett,Ya Gao,Boris Simonetti,Meihan Liu,Chris M. Danson,Kate J. Heesom,Peter J. Cullen,Brett M. Collins
标识
DOI:10.1073/pnas.2405041121
摘要
Endosomal membrane trafficking is mediated by specific protein coats and formation of actin-rich membrane domains. The Retromer complex coordinates with sorting nexin (SNX) cargo adaptors including SNX27, and the SNX27–Retromer assembly interacts with the Wiskott–Aldrich syndrome protein and SCAR homolog (WASH) complex which nucleates actin filaments establishing the endosomal recycling domain. Crystal structures, modeling, biochemical, and cellular validation reveal how the FAM21 subunit of WASH interacts with both Retromer and SNX27. FAM21 binds the FERM domain of SNX27 using acidic-Asp-Leu-Phe (aDLF) motifs similar to those found in the SNX1 and SNX2 subunits of the ESCPE-1 complex. Overlapping FAM21 repeats and a specific Pro-Leu containing motif bind three distinct sites on Retromer involving both the VPS35 and VPS29 subunits. Mutation of the major VPS35-binding site does not prevent cargo recycling; however, it partially reduces endosomal WASH association indicating that a network of redundant interactions promote endosomal activity of the WASH complex. These studies establish the molecular basis for how SNX27–Retromer is coupled to the WASH complex via overlapping and multiplexed motif-based interactions required for the dynamic assembly of endosomal membrane recycling domains.
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