A dynamic gateway: Uncovering the expanded human TOM complex interactome and its regulatory complexity

Mayra A Borrero-Landazabal; Vanessa Linke; Tereza Kadavá; Zeshi Li; Piotr Draczkowski; Kacper Kaszuba; Lea Bertgen; Remigiusz A Serwa; Albert J R Heck; Agnieszka Chacinska

doi:10.1126/sciadv.aeb2995

A dynamic gateway: Uncovering the expanded human TOM complex interactome and its regulatory complexity

Mayra A Borrero-Landazabal
, Vanessa Linke
, Tereza Kadavá
, Zeshi Li
, Piotr Draczkowski
, Kacper Kaszuba
, Lea Bertgen
, Remigiusz A Serwa
, Albert J R Heck^*
, Agnieszka Chacinska^*

^*Corresponding author for this work

IMol Polish Academy of Sciences
Stockholm University

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

Abstract

The translocase of the outer mitochondrial membrane (TOM) is the conserved entry gate for nuclear-encoded proteins. While structurally similar from yeast to humans, the human TOM complex operates in a cellular environment of vastly greater complexity. Here, we present a high-confidence map of the human TOM interactome using a membrane-permeable cross-linker to capture both stable and transient interactors. Alongside extensive overlap with known yeast partners, we uncover a set of human-specific interactors including regulatory factors and TOM-associated proteins. Mapping unique interprotein cross-links reveals conformational flexibility of the receptor TOM20 and enhanced recovery of peripheral components such as TOM70 and several associated quality control factors. Notably, we identify FKBP8 (FK506 binding protein 8) as a human-specific interactor that binds multiple TOM subunits and promotes organization of the complex. Our work redefines the human TOM complex as a dynamic, multifaceted hub coordinating biogenesis, quality control, and signaling. This expanded TOM landscape offers a rich resource for exploring mitochondrial regulation in health and disease.

Original language	English
Pages (from-to)	eaeb2995
Journal	Science advances
Volume	12
Issue number	18
DOIs	https://doi.org/10.1126/sciadv.aeb2995
Publication status	Published - May 2026

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Humans
Mitochondrial Precursor Protein Import Complex Proteins
Mitochondrial Membrane Transport Proteins/metabolism
Protein Binding
Mitochondria/metabolism
Protein Interaction Maps
Protein Interaction Mapping

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sciadv.aeb2995Final published version, 2.14 MBLicence: CC BY

Cite this

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title = "A dynamic gateway: Uncovering the expanded human TOM complex interactome and its regulatory complexity",

abstract = "The translocase of the outer mitochondrial membrane (TOM) is the conserved entry gate for nuclear-encoded proteins. While structurally similar from yeast to humans, the human TOM complex operates in a cellular environment of vastly greater complexity. Here, we present a high-confidence map of the human TOM interactome using a membrane-permeable cross-linker to capture both stable and transient interactors. Alongside extensive overlap with known yeast partners, we uncover a set of human-specific interactors including regulatory factors and TOM-associated proteins. Mapping unique interprotein cross-links reveals conformational flexibility of the receptor TOM20 and enhanced recovery of peripheral components such as TOM70 and several associated quality control factors. Notably, we identify FKBP8 (FK506 binding protein 8) as a human-specific interactor that binds multiple TOM subunits and promotes organization of the complex. Our work redefines the human TOM complex as a dynamic, multifaceted hub coordinating biogenesis, quality control, and signaling. This expanded TOM landscape offers a rich resource for exploring mitochondrial regulation in health and disease.",

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AU - Borrero-Landazabal, Mayra A

AU - Linke, Vanessa

AU - Kadavá, Tereza

AU - Li, Zeshi

AU - Draczkowski, Piotr

AU - Kaszuba, Kacper

AU - Bertgen, Lea

AU - Serwa, Remigiusz A

AU - Heck, Albert J R

AU - Chacinska, Agnieszka

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N2 - The translocase of the outer mitochondrial membrane (TOM) is the conserved entry gate for nuclear-encoded proteins. While structurally similar from yeast to humans, the human TOM complex operates in a cellular environment of vastly greater complexity. Here, we present a high-confidence map of the human TOM interactome using a membrane-permeable cross-linker to capture both stable and transient interactors. Alongside extensive overlap with known yeast partners, we uncover a set of human-specific interactors including regulatory factors and TOM-associated proteins. Mapping unique interprotein cross-links reveals conformational flexibility of the receptor TOM20 and enhanced recovery of peripheral components such as TOM70 and several associated quality control factors. Notably, we identify FKBP8 (FK506 binding protein 8) as a human-specific interactor that binds multiple TOM subunits and promotes organization of the complex. Our work redefines the human TOM complex as a dynamic, multifaceted hub coordinating biogenesis, quality control, and signaling. This expanded TOM landscape offers a rich resource for exploring mitochondrial regulation in health and disease.

AB - The translocase of the outer mitochondrial membrane (TOM) is the conserved entry gate for nuclear-encoded proteins. While structurally similar from yeast to humans, the human TOM complex operates in a cellular environment of vastly greater complexity. Here, we present a high-confidence map of the human TOM interactome using a membrane-permeable cross-linker to capture both stable and transient interactors. Alongside extensive overlap with known yeast partners, we uncover a set of human-specific interactors including regulatory factors and TOM-associated proteins. Mapping unique interprotein cross-links reveals conformational flexibility of the receptor TOM20 and enhanced recovery of peripheral components such as TOM70 and several associated quality control factors. Notably, we identify FKBP8 (FK506 binding protein 8) as a human-specific interactor that binds multiple TOM subunits and promotes organization of the complex. Our work redefines the human TOM complex as a dynamic, multifaceted hub coordinating biogenesis, quality control, and signaling. This expanded TOM landscape offers a rich resource for exploring mitochondrial regulation in health and disease.

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KW - Protein Binding

KW - Mitochondria/metabolism

KW - Protein Interaction Maps

KW - Protein Interaction Mapping

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SN - 2375-2548

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JO - Science advances

JF - Science advances

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ER -

A dynamic gateway: Uncovering the expanded human TOM complex interactome and its regulatory complexity

Abstract

UN SDGs

Keywords

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