A mitochondrial FUNDC1/HSC70 interaction organizes the proteostatic stress response at the risk of cell morbidity

Yanjun Li; Yanhong Xue; Xiaojun Xu; Guopeng Wang; Yiqun Liu; Hao Wu; Wenhui Li; Yueying Wang; Ziheng Chen; Weilin Zhang; Yushan Zhu; Wei Ji; Tao Xu; Lei Liu; Quan Chen

doi:10.15252/embj.201798786

A mitochondrial FUNDC1/HSC70 interaction organizes the proteostatic stress response at the risk of cell morbidity

Yanjun Li, Yanhong Xue, Xiaojun Xu, Guopeng Wang, Yiqun Liu, Hao Wu, Wenhui Li, Yueying Wang, Ziheng Chen, Weilin Zhang, Yushan Zhu, Wei Ji, Tao Xu, Lei Liu, Quan Chen

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

70 Scopus citations

Abstract

Both protein quality and mitochondrial quality are vital for the cellular activity, and impaired proteostasis and mitochondrial dysfunction are common etiologies of aging and age-related disorders. Here, we report that the mitochondrial outer membrane protein FUNDC1 interacts with the chaperone HSC70 to promote the mitochondrial translocation of unfolded cytosolic proteins for degradation by LONP1 or for formation of non-aggresomal mitochondrion-associated protein aggregates (MAPAs) upon proteasome inhibition in cultured human cells. Integrative approaches including csCLEM, Apex, and biochemical analysis reveal that MAPAs contain ubiquitinated cytosolic proteins, autophagy receptor p62, and mitochondrial proteins. MAPAs are segregated from mitochondria in a FIS1-dependent manner and can subsequently be degraded via autophagy. Although the FUNDC1/HSC70 pathway promotes the degradation of unfolded cytosolic proteins, excessive accumulation of unfolded proteins on the mitochondria prior to MAPA formation impairs mitochondrial integrity and activates AMPK, leading to cellular senescence. We suggest that human mitochondria organize cellular proteostatic response at the risk of their own malfunction and cell lethality.

Original language	English (US)
Article number	e98786
Journal	EMBO Journal
Volume	38
Issue number	3
DOIs	https://doi.org/10.15252/embj.201798786
State	Published - Feb 1 2019
Externally published	Yes

Keywords

cellular senescence
mitochondria
mitochondrial quality control
mitophagy
proteostatic stress

ASJC Scopus subject areas

General Neuroscience
Molecular Biology
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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title = "A mitochondrial FUNDC1/HSC70 interaction organizes the proteostatic stress response at the risk of cell morbidity",

abstract = "Both protein quality and mitochondrial quality are vital for the cellular activity, and impaired proteostasis and mitochondrial dysfunction are common etiologies of aging and age-related disorders. Here, we report that the mitochondrial outer membrane protein FUNDC1 interacts with the chaperone HSC70 to promote the mitochondrial translocation of unfolded cytosolic proteins for degradation by LONP1 or for formation of non-aggresomal mitochondrion-associated protein aggregates (MAPAs) upon proteasome inhibition in cultured human cells. Integrative approaches including csCLEM, Apex, and biochemical analysis reveal that MAPAs contain ubiquitinated cytosolic proteins, autophagy receptor p62, and mitochondrial proteins. MAPAs are segregated from mitochondria in a FIS1-dependent manner and can subsequently be degraded via autophagy. Although the FUNDC1/HSC70 pathway promotes the degradation of unfolded cytosolic proteins, excessive accumulation of unfolded proteins on the mitochondria prior to MAPA formation impairs mitochondrial integrity and activates AMPK, leading to cellular senescence. We suggest that human mitochondria organize cellular proteostatic response at the risk of their own malfunction and cell lethality.",

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author = "Yanjun Li and Yanhong Xue and Xiaojun Xu and Guopeng Wang and Yiqun Liu and Hao Wu and Wenhui Li and Yueying Wang and Ziheng Chen and Weilin Zhang and Yushan Zhu and Wei Ji and Tao Xu and Lei Liu and Quan Chen",

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T1 - A mitochondrial FUNDC1/HSC70 interaction organizes the proteostatic stress response at the risk of cell morbidity

AU - Li, Yanjun

AU - Xue, Yanhong

AU - Xu, Xiaojun

AU - Wang, Guopeng

AU - Liu, Yiqun

AU - Wu, Hao

AU - Li, Wenhui

AU - Wang, Yueying

AU - Chen, Ziheng

AU - Zhang, Weilin

AU - Zhu, Yushan

AU - Ji, Wei

AU - Xu, Tao

AU - Liu, Lei

AU - Chen, Quan

PY - 2019/2/1

Y1 - 2019/2/1

N2 - Both protein quality and mitochondrial quality are vital for the cellular activity, and impaired proteostasis and mitochondrial dysfunction are common etiologies of aging and age-related disorders. Here, we report that the mitochondrial outer membrane protein FUNDC1 interacts with the chaperone HSC70 to promote the mitochondrial translocation of unfolded cytosolic proteins for degradation by LONP1 or for formation of non-aggresomal mitochondrion-associated protein aggregates (MAPAs) upon proteasome inhibition in cultured human cells. Integrative approaches including csCLEM, Apex, and biochemical analysis reveal that MAPAs contain ubiquitinated cytosolic proteins, autophagy receptor p62, and mitochondrial proteins. MAPAs are segregated from mitochondria in a FIS1-dependent manner and can subsequently be degraded via autophagy. Although the FUNDC1/HSC70 pathway promotes the degradation of unfolded cytosolic proteins, excessive accumulation of unfolded proteins on the mitochondria prior to MAPA formation impairs mitochondrial integrity and activates AMPK, leading to cellular senescence. We suggest that human mitochondria organize cellular proteostatic response at the risk of their own malfunction and cell lethality.

AB - Both protein quality and mitochondrial quality are vital for the cellular activity, and impaired proteostasis and mitochondrial dysfunction are common etiologies of aging and age-related disorders. Here, we report that the mitochondrial outer membrane protein FUNDC1 interacts with the chaperone HSC70 to promote the mitochondrial translocation of unfolded cytosolic proteins for degradation by LONP1 or for formation of non-aggresomal mitochondrion-associated protein aggregates (MAPAs) upon proteasome inhibition in cultured human cells. Integrative approaches including csCLEM, Apex, and biochemical analysis reveal that MAPAs contain ubiquitinated cytosolic proteins, autophagy receptor p62, and mitochondrial proteins. MAPAs are segregated from mitochondria in a FIS1-dependent manner and can subsequently be degraded via autophagy. Although the FUNDC1/HSC70 pathway promotes the degradation of unfolded cytosolic proteins, excessive accumulation of unfolded proteins on the mitochondria prior to MAPA formation impairs mitochondrial integrity and activates AMPK, leading to cellular senescence. We suggest that human mitochondria organize cellular proteostatic response at the risk of their own malfunction and cell lethality.

KW - cellular senescence

KW - mitochondria

KW - mitochondrial quality control

KW - mitophagy

KW - proteostatic stress

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A mitochondrial FUNDC1/HSC70 interaction organizes the proteostatic stress response at the risk of cell morbidity

Abstract

Keywords

ASJC Scopus subject areas

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