Author:
Boesch Daniel J.,Singla Amika,Han Yan,Kramer Daniel A.,Liu Qi,Suzuki Kohei,Juneja Puneet,Zhao Xuefeng,Long Xin,Medlyn Michael J.,Billadeau Daniel D.,Chen Zhe,Chen Baoyu,Burstein Ezra
Abstract
AbstractThe recycling of membrane proteins from endosomes to the cell surface is vital for cell signaling and survival. Retriever, a trimeric complex of VPS35L, VPS26C and VPS29, together with the CCC complex comprising CCDC22, CCDC93, and COMMD proteins, plays a crucial role in this process. The precise mechanisms underlying Retriever assembly and its interaction with CCC have remained elusive. Here, we present the first high-resolution structure of Retriever determined using cryogenic electron microscopy. The structure reveals a unique assembly mechanism, distinguishing it from its remotely related paralog, Retromer. By combining AlphaFold predictions and biochemical, cellular, and proteomic analyses, we further elucidate the structural organization of the entire Retriever-CCC complex and uncover how cancer-associated mutations disrupt complex formation and impair membrane protein homeostasis. These findings provide a fundamental framework for understanding the biological and pathological implications associated with Retriever-CCC-mediated endosomal recycling.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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