Mechanism and regulation of cargo entry into the Commander endosomal recycling pathway

Rebeka Butkovic; Alexander P Walker; Michael D  Healy; Kerrie E McNally; Meihan Liu; Tineke Veenendaal; Kohji Kato; Nalan Liv; Judith Klumpermann; Brett M Collins; Pete J Cullen

doi:10.1038/s41467-024-50971-0

Mechanism and regulation of cargo entry into the Commander endosomal recycling pathway

Rebeka Butkovic^*, Alexander P Walker, Michael D Healy, Kerrie E McNally, Meihan Liu, Tineke Veenendaal, Kohji Kato, Nalan Liv, Judith Klumpermann, Brett M Collins^*, Pete J Cullen ^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

2 Citations (Scopus)

Abstract

Commander is a multiprotein complex that orchestrates endosomal recycling of integral cargo proteins and is essential for normal development. While the structure of this complex has recently been described, how cargo proteins are selected for Commander-mediated recycling remains unclear. Here we identify the mechanism through which the unstructured carboxy-terminal tail of the cargo adaptor sorting nexin-17 (SNX17) directly binds to the Retriever sub-complex of Commander. SNX17 adopts an autoinhibited conformation where its carboxy-terminal tail occupies the cargo binding groove. Competitive cargo binding overcomes this autoinhibition, promoting SNX17 endosomal residency and the release of the tail for Retriever association. Furthermore, our study establishes the central importance of SNX17-Retriever association in the handover of integrin and lipoprotein receptor cargoes into pre-existing endosomal retrieval sub-domains. In describing the principal mechanism of cargo entry into the Commander recycling pathway we provide key insight into the function and regulation of this evolutionary conserved sorting pathway.

Original language	English
Article number	7180
Number of pages	15
Journal	Nature Communications
Volume	15
Issue number	1
Early online date	21 Aug 2024
DOIs	https://doi.org/10.1038/s41467-024-50971-0
Publication status	Published - 21 Aug 2024

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© The Author(s) 2024.

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Defining the role of retromer-like in endosomal cargo sorting in health and disease
Cullen , P. J. (Principal Investigator)
1/10/17 → 31/03/24
Project: Research
Analysing the cell biology of SNX10 in endosomal sorting and signaling: implications for osteoclast function in osteopetrosis
Cullen , P. J. (Principal Investigator)
1/05/14 → 31/10/17
Project: Research

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title = "Mechanism and regulation of cargo entry into the Commander endosomal recycling pathway",

abstract = "Commander is a multiprotein complex that orchestrates endosomal recycling of integral cargo proteins and is essential for normal development. While the structure of this complex has recently been described, how cargo proteins are selected for Commander-mediated recycling remains unclear. Here we identify the mechanism through which the unstructured carboxy-terminal tail of the cargo adaptor sorting nexin-17 (SNX17) directly binds to the Retriever sub-complex of Commander. SNX17 adopts an autoinhibited conformation where its carboxy-terminal tail occupies the cargo binding groove. Competitive cargo binding overcomes this autoinhibition, promoting SNX17 endosomal residency and the release of the tail for Retriever association. Furthermore, our study establishes the central importance of SNX17-Retriever association in the handover of integrin and lipoprotein receptor cargoes into pre-existing endosomal retrieval sub-domains. In describing the principal mechanism of cargo entry into the Commander recycling pathway we provide key insight into the function and regulation of this evolutionary conserved sorting pathway.",

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doi = "10.1038/s41467-024-50971-0",

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AU - Butkovic, Rebeka

AU - Walker, Alexander P

AU - Healy, Michael D

AU - McNally, Kerrie E

AU - Liu, Meihan

AU - Veenendaal, Tineke

AU - Kato, Kohji

AU - Liv, Nalan

AU - Klumpermann, Judith

AU - Collins, Brett M

AU - Cullen , Pete J

PY - 2024/8/21

Y1 - 2024/8/21

N2 - Commander is a multiprotein complex that orchestrates endosomal recycling of integral cargo proteins and is essential for normal development. While the structure of this complex has recently been described, how cargo proteins are selected for Commander-mediated recycling remains unclear. Here we identify the mechanism through which the unstructured carboxy-terminal tail of the cargo adaptor sorting nexin-17 (SNX17) directly binds to the Retriever sub-complex of Commander. SNX17 adopts an autoinhibited conformation where its carboxy-terminal tail occupies the cargo binding groove. Competitive cargo binding overcomes this autoinhibition, promoting SNX17 endosomal residency and the release of the tail for Retriever association. Furthermore, our study establishes the central importance of SNX17-Retriever association in the handover of integrin and lipoprotein receptor cargoes into pre-existing endosomal retrieval sub-domains. In describing the principal mechanism of cargo entry into the Commander recycling pathway we provide key insight into the function and regulation of this evolutionary conserved sorting pathway.

AB - Commander is a multiprotein complex that orchestrates endosomal recycling of integral cargo proteins and is essential for normal development. While the structure of this complex has recently been described, how cargo proteins are selected for Commander-mediated recycling remains unclear. Here we identify the mechanism through which the unstructured carboxy-terminal tail of the cargo adaptor sorting nexin-17 (SNX17) directly binds to the Retriever sub-complex of Commander. SNX17 adopts an autoinhibited conformation where its carboxy-terminal tail occupies the cargo binding groove. Competitive cargo binding overcomes this autoinhibition, promoting SNX17 endosomal residency and the release of the tail for Retriever association. Furthermore, our study establishes the central importance of SNX17-Retriever association in the handover of integrin and lipoprotein receptor cargoes into pre-existing endosomal retrieval sub-domains. In describing the principal mechanism of cargo entry into the Commander recycling pathway we provide key insight into the function and regulation of this evolutionary conserved sorting pathway.

U2 - 10.1038/s41467-024-50971-0

DO - 10.1038/s41467-024-50971-0

M3 - Article (Academic Journal)

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SN - 2041-1723

VL - 15

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 7180

ER -

Mechanism and regulation of cargo entry into the Commander endosomal recycling pathway

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Projects

Defining the role of retromer-like in endosomal cargo sorting in health and disease

Analysing the cell biology of SNX10 in endosomal sorting and signaling: implications for osteoclast function in osteopetrosis

Cite this