Tfeb/mitf links impaired nuclear import to autophagolysosomal dysfunction in c9-als

Kathleen M. Cunningham; Kirstin Maulding; Kai Ruan; Mumine Senturk; Jonathan C. Grima; Hyun Sung; Zhongyuan Zuo; Helen Song; Junli Gao; Sandeep Dubey; Jeffrey D. Rothstein; Ke Zhang; Hugo J. Bellen; Thomas E. Lloyd

doi:10.7554/ELIFE.59419

Tfeb/mitf links impaired nuclear import to autophagolysosomal dysfunction in c9-als

Kathleen M. Cunningham, Kirstin Maulding, Kai Ruan, Mumine Senturk, Jonathan C. Grima, Hyun Sung, Zhongyuan Zuo, Helen Song, Junli Gao, Sandeep Dubey, Jeffrey D. Rothstein, Ke Zhang, Hugo J. Bellen, Thomas E. Lloyd

School of Medicine

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

1 Scopus citations

Abstract

Disrupted nucleocytoplasmic transport (NCT) has been implicated in neurodegenerative disease pathogenesis; however, the mechanisms by which disrupted NCT causes neurodegeneration remain unclear. In a Drosophila screen, we identified ref(2)P/p62, a key regulator of autophagy, as a potent suppressor of neurodegeneration caused by the GGGGCC hexanucleotide repeat expansion (G4C2 HRE) in C9orf72 that causes amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). We found that p62 is increased and forms ubiquitinated aggregates due to decreased autophagic cargo degradation. Immunofluorescence and electron microscopy of Drosophila tissues demonstrate an accumulation of lysosome-like organelles that precedes neurodegeneration. These phenotypes are partially caused by cytoplasmic mislocalization of Mitf/TFEB, a key transcriptional regulator of autophagolysosomal function. Additionally, TFEB is mislocalized and downregulated in human cells expressing GGGGCC repeats and in C9-ALS patient motor cortex. Our data suggest that the C9orf72-HRE impairs Mitf/TFEB nuclear import, thereby disrupting autophagy and exacerbating proteostasis defects in C9-ALS/FTD.

Original language	English (US)
Article number	e59419
Pages (from-to)	1-35
Number of pages	35
Journal	eLife
Volume	9
DOIs	https://doi.org/10.7554/ELIFE.59419
State	Published - Dec 2020

ASJC Scopus subject areas

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

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title = "Tfeb/mitf links impaired nuclear import to autophagolysosomal dysfunction in c9-als",

abstract = "Disrupted nucleocytoplasmic transport (NCT) has been implicated in neurodegenerative disease pathogenesis; however, the mechanisms by which disrupted NCT causes neurodegeneration remain unclear. In a Drosophila screen, we identified ref(2)P/p62, a key regulator of autophagy, as a potent suppressor of neurodegeneration caused by the GGGGCC hexanucleotide repeat expansion (G4C2 HRE) in C9orf72 that causes amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). We found that p62 is increased and forms ubiquitinated aggregates due to decreased autophagic cargo degradation. Immunofluorescence and electron microscopy of Drosophila tissues demonstrate an accumulation of lysosome-like organelles that precedes neurodegeneration. These phenotypes are partially caused by cytoplasmic mislocalization of Mitf/TFEB, a key transcriptional regulator of autophagolysosomal function. Additionally, TFEB is mislocalized and downregulated in human cells expressing GGGGCC repeats and in C9-ALS patient motor cortex. Our data suggest that the C9orf72-HRE impairs Mitf/TFEB nuclear import, thereby disrupting autophagy and exacerbating proteostasis defects in C9-ALS/FTD.",

author = "Cunningham, {Kathleen M.} and Kirstin Maulding and Kai Ruan and Mumine Senturk and Grima, {Jonathan C.} and Hyun Sung and Zhongyuan Zuo and Helen Song and Junli Gao and Sandeep Dubey and Rothstein, {Jeffrey D.} and Ke Zhang and Bellen, {Hugo J.} and Lloyd, {Thomas E.}",

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year = "2020",

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AU - Cunningham, Kathleen M.

AU - Maulding, Kirstin

AU - Ruan, Kai

AU - Senturk, Mumine

AU - Grima, Jonathan C.

AU - Sung, Hyun

AU - Zuo, Zhongyuan

AU - Song, Helen

AU - Gao, Junli

AU - Dubey, Sandeep

AU - Rothstein, Jeffrey D.

AU - Zhang, Ke

AU - Bellen, Hugo J.

AU - Lloyd, Thomas E.

PY - 2020/12

Y1 - 2020/12

N2 - Disrupted nucleocytoplasmic transport (NCT) has been implicated in neurodegenerative disease pathogenesis; however, the mechanisms by which disrupted NCT causes neurodegeneration remain unclear. In a Drosophila screen, we identified ref(2)P/p62, a key regulator of autophagy, as a potent suppressor of neurodegeneration caused by the GGGGCC hexanucleotide repeat expansion (G4C2 HRE) in C9orf72 that causes amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). We found that p62 is increased and forms ubiquitinated aggregates due to decreased autophagic cargo degradation. Immunofluorescence and electron microscopy of Drosophila tissues demonstrate an accumulation of lysosome-like organelles that precedes neurodegeneration. These phenotypes are partially caused by cytoplasmic mislocalization of Mitf/TFEB, a key transcriptional regulator of autophagolysosomal function. Additionally, TFEB is mislocalized and downregulated in human cells expressing GGGGCC repeats and in C9-ALS patient motor cortex. Our data suggest that the C9orf72-HRE impairs Mitf/TFEB nuclear import, thereby disrupting autophagy and exacerbating proteostasis defects in C9-ALS/FTD.

AB - Disrupted nucleocytoplasmic transport (NCT) has been implicated in neurodegenerative disease pathogenesis; however, the mechanisms by which disrupted NCT causes neurodegeneration remain unclear. In a Drosophila screen, we identified ref(2)P/p62, a key regulator of autophagy, as a potent suppressor of neurodegeneration caused by the GGGGCC hexanucleotide repeat expansion (G4C2 HRE) in C9orf72 that causes amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). We found that p62 is increased and forms ubiquitinated aggregates due to decreased autophagic cargo degradation. Immunofluorescence and electron microscopy of Drosophila tissues demonstrate an accumulation of lysosome-like organelles that precedes neurodegeneration. These phenotypes are partially caused by cytoplasmic mislocalization of Mitf/TFEB, a key transcriptional regulator of autophagolysosomal function. Additionally, TFEB is mislocalized and downregulated in human cells expressing GGGGCC repeats and in C9-ALS patient motor cortex. Our data suggest that the C9orf72-HRE impairs Mitf/TFEB nuclear import, thereby disrupting autophagy and exacerbating proteostasis defects in C9-ALS/FTD.

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Tfeb/mitf links impaired nuclear import to autophagolysosomal dysfunction in c9-als

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