An integrative systems-biology approach defines mechanisms of Alzheimer’s disease neurodegeneration

Matthew J. Leventhal; Camila A. Zanella; Byunguk Kang; Jiajie Peng; David Gritsch; Zhixiang Liao; Hassan Bukhari; Tao Wang; Ping Chieh Pao; Serwah Danquah; Joseph Benetatos; Ralda Nehme; Samouil Farhi; Li Huei Tsai; Xianjun Dong; Clemens R. Scherzer; Mel B. Feany; Ernest Fraenkel

doi:10.1038/s41467-025-59654-w

An integrative systems-biology approach defines mechanisms of Alzheimer’s disease neurodegeneration

Matthew J. Leventhal
, Camila A. Zanella
, Byunguk Kang
, Jiajie Peng
, David Gritsch
, Zhixiang Liao
, Hassan Bukhari
, Tao Wang
, Ping Chieh Pao
, Serwah Danquah
, Joseph Benetatos
, Ralda Nehme
, Samouil Farhi
, Li Huei Tsai
, Xianjun Dong
, Clemens R. Scherzer
, Mel B. Feany
, Ernest Fraenkel

Massachusetts Institute of Technology
Broad Institute
Brigham and Women’s Hospital
Northwestern Polytechnical University Xian
Yale University

科研成果: 期刊稿件 › 文章 › 同行评审

12 引用（Scopus）

摘要

Despite years of intense investigation, the mechanisms underlying neuronal death in Alzheimer’s disease, remain incompletely understood. To define relevant pathways, we conducted an unbiased, genome-scale forward genetic screen for age-associated neurodegeneration in Drosophila. We also measured proteomics, phosphoproteomics, and metabolomics in Drosophila models of Alzheimer’s disease and identified Alzheimer’s genetic variants that modify gene expression in disease-vulnerable neurons in humans. We then used a network model to integrate these data with previously published Alzheimer’s disease proteomics, lipidomics and genomics. Here, we computationally predict and experimentally confirm how HNRNPA2B1 and MEPCE enhance toxicity of the tau protein, a pathological feature of Alzheimer’s disease. Furthermore, we demonstrated that the screen hits CSNK2A1 and NOTCH1 regulate DNA damage in Drosophila and human stem cell-derived neural progenitor cells. Our study identifies candidate pathways that could be targeted to ameliorate neurodegeneration in Alzheimer’s disease.

源语言	英语
文章编号	4441
期刊	Nature Communications
卷	16
期	1
DOI	https://doi.org/10.1038/s41467-025-59654-w
出版状态	已出版 - 12月 2025
已对外发布	是

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 3 良好健康与福祉

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10.1038/s41467-025-59654-w

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Leventhal, M. J., Zanella, C. A., Kang, B., Peng, J., Gritsch, D., Liao, Z., Bukhari, H., Wang, T., Pao, P. C., Danquah, S., Benetatos, J., Nehme, R., Farhi, S., Tsai, L. H., Dong, X., Scherzer, C. R., Feany, M. B., & Fraenkel, E. (2025). An integrative systems-biology approach defines mechanisms of Alzheimer’s disease neurodegeneration. Nature Communications, 16(1), 文章 4441. https://doi.org/10.1038/s41467-025-59654-w

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title = "An integrative systems-biology approach defines mechanisms of Alzheimer{\textquoteright}s disease neurodegeneration",

abstract = "Despite years of intense investigation, the mechanisms underlying neuronal death in Alzheimer{\textquoteright}s disease, remain incompletely understood. To define relevant pathways, we conducted an unbiased, genome-scale forward genetic screen for age-associated neurodegeneration in Drosophila. We also measured proteomics, phosphoproteomics, and metabolomics in Drosophila models of Alzheimer{\textquoteright}s disease and identified Alzheimer{\textquoteright}s genetic variants that modify gene expression in disease-vulnerable neurons in humans. We then used a network model to integrate these data with previously published Alzheimer{\textquoteright}s disease proteomics, lipidomics and genomics. Here, we computationally predict and experimentally confirm how HNRNPA2B1 and MEPCE enhance toxicity of the tau protein, a pathological feature of Alzheimer{\textquoteright}s disease. Furthermore, we demonstrated that the screen hits CSNK2A1 and NOTCH1 regulate DNA damage in Drosophila and human stem cell-derived neural progenitor cells. Our study identifies candidate pathways that could be targeted to ameliorate neurodegeneration in Alzheimer{\textquoteright}s disease.",

author = "Leventhal, \{Matthew J.\} and Zanella, \{Camila A.\} and Byunguk Kang and Jiajie Peng and David Gritsch and Zhixiang Liao and Hassan Bukhari and Tao Wang and Pao, \{Ping Chieh\} and Serwah Danquah and Joseph Benetatos and Ralda Nehme and Samouil Farhi and Tsai, \{Li Huei\} and Xianjun Dong and Scherzer, \{Clemens R.\} and Feany, \{Mel B.\} and Ernest Fraenkel",

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month = dec,

doi = "10.1038/s41467-025-59654-w",

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Leventhal, MJ, Zanella, CA, Kang, B, Peng, J, Gritsch, D, Liao, Z, Bukhari, H, Wang, T, Pao, PC, Danquah, S, Benetatos, J, Nehme, R, Farhi, S, Tsai, LH, Dong, X, Scherzer, CR, Feany, MB & Fraenkel, E 2025, 'An integrative systems-biology approach defines mechanisms of Alzheimer’s disease neurodegeneration', Nature Communications, 卷 16, 号码 1, 4441. https://doi.org/10.1038/s41467-025-59654-w

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AU - Leventhal, Matthew J.

AU - Zanella, Camila A.

AU - Kang, Byunguk

AU - Peng, Jiajie

AU - Gritsch, David

AU - Liao, Zhixiang

AU - Bukhari, Hassan

AU - Wang, Tao

AU - Pao, Ping Chieh

AU - Danquah, Serwah

AU - Benetatos, Joseph

AU - Nehme, Ralda

AU - Farhi, Samouil

AU - Tsai, Li Huei

AU - Dong, Xianjun

AU - Scherzer, Clemens R.

AU - Feany, Mel B.

AU - Fraenkel, Ernest

PY - 2025/12

Y1 - 2025/12

N2 - Despite years of intense investigation, the mechanisms underlying neuronal death in Alzheimer’s disease, remain incompletely understood. To define relevant pathways, we conducted an unbiased, genome-scale forward genetic screen for age-associated neurodegeneration in Drosophila. We also measured proteomics, phosphoproteomics, and metabolomics in Drosophila models of Alzheimer’s disease and identified Alzheimer’s genetic variants that modify gene expression in disease-vulnerable neurons in humans. We then used a network model to integrate these data with previously published Alzheimer’s disease proteomics, lipidomics and genomics. Here, we computationally predict and experimentally confirm how HNRNPA2B1 and MEPCE enhance toxicity of the tau protein, a pathological feature of Alzheimer’s disease. Furthermore, we demonstrated that the screen hits CSNK2A1 and NOTCH1 regulate DNA damage in Drosophila and human stem cell-derived neural progenitor cells. Our study identifies candidate pathways that could be targeted to ameliorate neurodegeneration in Alzheimer’s disease.

AB - Despite years of intense investigation, the mechanisms underlying neuronal death in Alzheimer’s disease, remain incompletely understood. To define relevant pathways, we conducted an unbiased, genome-scale forward genetic screen for age-associated neurodegeneration in Drosophila. We also measured proteomics, phosphoproteomics, and metabolomics in Drosophila models of Alzheimer’s disease and identified Alzheimer’s genetic variants that modify gene expression in disease-vulnerable neurons in humans. We then used a network model to integrate these data with previously published Alzheimer’s disease proteomics, lipidomics and genomics. Here, we computationally predict and experimentally confirm how HNRNPA2B1 and MEPCE enhance toxicity of the tau protein, a pathological feature of Alzheimer’s disease. Furthermore, we demonstrated that the screen hits CSNK2A1 and NOTCH1 regulate DNA damage in Drosophila and human stem cell-derived neural progenitor cells. Our study identifies candidate pathways that could be targeted to ameliorate neurodegeneration in Alzheimer’s disease.

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DO - 10.1038/s41467-025-59654-w

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SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

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ER -

An integrative systems-biology approach defines mechanisms of Alzheimer’s disease neurodegeneration

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