Screens in aging-relevant human ALS-motor neurons identify MAP4Ks as therapeutic targets for the disease

Meng Lu Liu; Shuaipeng Ma; Wenjiao Tai; Xiaoling Zhong; Haoqi Ni; Yuhua Zou; Jingcheng Wang; Chun Li Zhang

doi:10.1038/s41419-023-06395-7

Screens in aging-relevant human ALS-motor neurons identify MAP4Ks as therapeutic targets for the disease

Meng Lu Liu, Shuaipeng Ma, Wenjiao Tai, Xiaoling Zhong, Haoqi Ni, Yuhua Zou, Jingcheng Wang, Chun Li Zhang

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

Abstract

Effective therapeutics is much needed for amyotrophic lateral sclerosis (ALS), an adult-onset neurodegenerative disease mainly affecting motor neurons. By screening chemical compounds in human patient-derived and aging-relevant motor neurons, we identify a neuroprotective compound and show that MAP4Ks may serve as therapeutic targets for treating ALS. The lead compound broadly improves survival and function of motor neurons directly converted from human ALS patients. Mechanistically, it works as an inhibitor of MAP4Ks, regulates the MAP4Ks-HDAC6-TUBA4A-RANGAP1 pathway, and normalizes subcellular distribution of RANGAP1 and TDP-43. Finally, in an ALS mouse model we show that inhibiting MAP4Ks preserves motor neurons and significantly extends animal lifespan.

Original language	English (US)
Article number	4
Journal	Cell Death and Disease
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41419-023-06395-7
State	Published - Jan 2024

ASJC Scopus subject areas

Immunology
Cellular and Molecular Neuroscience
Cell Biology
Cancer Research

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abstract = "Effective therapeutics is much needed for amyotrophic lateral sclerosis (ALS), an adult-onset neurodegenerative disease mainly affecting motor neurons. By screening chemical compounds in human patient-derived and aging-relevant motor neurons, we identify a neuroprotective compound and show that MAP4Ks may serve as therapeutic targets for treating ALS. The lead compound broadly improves survival and function of motor neurons directly converted from human ALS patients. Mechanistically, it works as an inhibitor of MAP4Ks, regulates the MAP4Ks-HDAC6-TUBA4A-RANGAP1 pathway, and normalizes subcellular distribution of RANGAP1 and TDP-43. Finally, in an ALS mouse model we show that inhibiting MAP4Ks preserves motor neurons and significantly extends animal lifespan.",

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AU - Liu, Meng Lu

AU - Ma, Shuaipeng

AU - Tai, Wenjiao

AU - Zhong, Xiaoling

AU - Ni, Haoqi

AU - Zou, Yuhua

AU - Wang, Jingcheng

AU - Zhang, Chun Li

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AB - Effective therapeutics is much needed for amyotrophic lateral sclerosis (ALS), an adult-onset neurodegenerative disease mainly affecting motor neurons. By screening chemical compounds in human patient-derived and aging-relevant motor neurons, we identify a neuroprotective compound and show that MAP4Ks may serve as therapeutic targets for treating ALS. The lead compound broadly improves survival and function of motor neurons directly converted from human ALS patients. Mechanistically, it works as an inhibitor of MAP4Ks, regulates the MAP4Ks-HDAC6-TUBA4A-RANGAP1 pathway, and normalizes subcellular distribution of RANGAP1 and TDP-43. Finally, in an ALS mouse model we show that inhibiting MAP4Ks preserves motor neurons and significantly extends animal lifespan.

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Screens in aging-relevant human ALS-motor neurons identify MAP4Ks as therapeutic targets for the disease

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