Large-scale drug screening in iPSC-derived motor neurons from sporadic ALS patients identifies a potential combinatorial therapy

Christopher R. Bye; Elizabeth Qian; Katherine Lim; Maciej Daniszewski; Fleur C. Garton; Bảo C. Trần-Lê; Helena H. Liang; Tian Lin; John G. Lock; Duncan E. Crombie; Steven Morgan; Yi Hu; Samantha K. Barton; Lucy M. Palmer; Elvan Djouma; Saritha Kodikara; Kim Anh Lê Cao; Thanuja Dharmadasa; Anjali K. Henders; Laura A. Ziser; Matthew C. Kiernan; Kevin Talbot; Merrilee Needham; Susan Fletcher; Paul Talman; Susan Mathers; Naomi R. Wray; Alex W. Hewitt; Alice Pebay; Bradley J. Turner

doi:10.1038/s41593-025-02118-7

Large-scale drug screening in iPSC-derived motor neurons from sporadic ALS patients identifies a potential combinatorial therapy

Christopher R. Bye, Elizabeth Qian, Katherine Lim, Maciej Daniszewski, Fleur C. Garton, Bảo C. Trần-Lê, Helena H. Liang, Tian Lin, John G. Lock, Duncan E. Crombie, Steven Morgan, Yi Hu, Samantha K. Barton, Lucy M. Palmer, Elvan Djouma, Saritha Kodikara, Kim Anh Lê Cao, Thanuja Dharmadasa, Anjali K. Henders, Laura A. ZiserMatthew C. Kiernan, Kevin Talbot, Merrilee Needham, Susan Fletcher, Paul Talman, Susan Mathers, Naomi R. Wray, Alex W. Hewitt, Alice Pebay, Bradley J. Turner

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Abstract

Heterogeneous and predominantly sporadic neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS), remain highly challenging to model. Patient-derived induced pluripotent stem cell (iPSC) technologies offer great promise for these diseases; however, large-scale studies demonstrating accelerated neurodegeneration in patients with sporadic disease are limited. Here we generated an iPSC library from 100 patients with sporadic ALS (SALS) and conducted population-wide phenotypic screening. Motor neurons derived from patients with SALS recapitulated key aspects of the disease, including reduced survival, accelerated neurite degeneration correlating with donor survival, transcriptional dysregulation and pharmacological rescue by riluzole. Screening of drugs previously tested in ALS clinical trials revealed that 97% failed to mitigate neurodegeneration, reflecting trial outcomes and validating the SALS model. Combinatorial testing of effective drugs identified baricitinib, memantine and riluzole as a promising therapeutic combination for SALS. These findings demonstrate that patient-derived iPSC models can recapitulate sporadic disease features, paving the way for a new generation of disease modeling and therapeutic discovery in ALS.

Original language	English
Pages (from-to)	40-52
Number of pages	13
Journal	NATURE NEUROSCIENCE
Volume	29
Issue number	1
Early online date	24 Nov 2025
DOIs	https://doi.org/10.1038/s41593-025-02118-7
Publication status	Published - Jan 2026
Externally published	Yes

Keywords

Amyotrophic lateral sclerosis
Induced pluripotent stem cells

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10.1038/s41593-025-02118-7Licence: CC BY

Final published versionFinal published version, 6.96 MBLicence: CC BY

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Bye, C. R., Qian, E., Lim, K., Daniszewski, M., Garton, F. C., Trần-Lê, B. C., Liang, H. H., Lin, T., Lock, J. G., Crombie, D. E., Morgan, S., Hu, Y., Barton, S. K., Palmer, L. M., Djouma, E., Kodikara, S., Lê Cao, K. A., Dharmadasa, T., Henders, A. K., ... Turner, B. J. (2026). Large-scale drug screening in iPSC-derived motor neurons from sporadic ALS patients identifies a potential combinatorial therapy. NATURE NEUROSCIENCE, 29(1), 40-52. https://doi.org/10.1038/s41593-025-02118-7

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title = "Large-scale drug screening in iPSC-derived motor neurons from sporadic ALS patients identifies a potential combinatorial therapy",

abstract = "Heterogeneous and predominantly sporadic neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS), remain highly challenging to model. Patient-derived induced pluripotent stem cell (iPSC) technologies offer great promise for these diseases; however, large-scale studies demonstrating accelerated neurodegeneration in patients with sporadic disease are limited. Here we generated an iPSC library from 100 patients with sporadic ALS (SALS) and conducted population-wide phenotypic screening. Motor neurons derived from patients with SALS recapitulated key aspects of the disease, including reduced survival, accelerated neurite degeneration correlating with donor survival, transcriptional dysregulation and pharmacological rescue by riluzole. Screening of drugs previously tested in ALS clinical trials revealed that 97% failed to mitigate neurodegeneration, reflecting trial outcomes and validating the SALS model. Combinatorial testing of effective drugs identified baricitinib, memantine and riluzole as a promising therapeutic combination for SALS. These findings demonstrate that patient-derived iPSC models can recapitulate sporadic disease features, paving the way for a new generation of disease modeling and therapeutic discovery in ALS.",

keywords = "Amyotrophic lateral sclerosis, Induced pluripotent stem cells",

author = "Bye, {Christopher R.} and Elizabeth Qian and Katherine Lim and Maciej Daniszewski and Garton, {Fleur C.} and Trần-L{\^e}, {Bảo C.} and Liang, {Helena H.} and Tian Lin and Lock, {John G.} and Crombie, {Duncan E.} and Steven Morgan and Yi Hu and Barton, {Samantha K.} and Palmer, {Lucy M.} and Elvan Djouma and Saritha Kodikara and {L{\^e} Cao}, {Kim Anh} and Thanuja Dharmadasa and Henders, {Anjali K.} and Ziser, {Laura A.} and Kiernan, {Matthew C.} and Kevin Talbot and Merrilee Needham and Susan Fletcher and Paul Talman and Susan Mathers and Wray, {Naomi R.} and Hewitt, {Alex W.} and Alice Pebay and Turner, {Bradley J.}",

year = "2026",

month = jan,

doi = "10.1038/s41593-025-02118-7",

language = "English",

volume = "29",

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Bye, CR, Qian, E, Lim, K, Daniszewski, M, Garton, FC, Trần-Lê, BC, Liang, HH, Lin, T, Lock, JG, Crombie, DE, Morgan, S, Hu, Y, Barton, SK, Palmer, LM, Djouma, E, Kodikara, S, Lê Cao, KA, Dharmadasa, T, Henders, AK, Ziser, LA, Kiernan, MC, Talbot, K, Needham, M, Fletcher, S, Talman, P, Mathers, S, Wray, NR, Hewitt, AW, Pebay, A & Turner, BJ 2026, 'Large-scale drug screening in iPSC-derived motor neurons from sporadic ALS patients identifies a potential combinatorial therapy', NATURE NEUROSCIENCE, vol. 29, no. 1, pp. 40-52. https://doi.org/10.1038/s41593-025-02118-7

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AU - Bye, Christopher R.

AU - Qian, Elizabeth

AU - Lim, Katherine

AU - Daniszewski, Maciej

AU - Garton, Fleur C.

AU - Trần-Lê, Bảo C.

AU - Liang, Helena H.

AU - Lin, Tian

AU - Lock, John G.

AU - Crombie, Duncan E.

AU - Morgan, Steven

AU - Hu, Yi

AU - Barton, Samantha K.

AU - Palmer, Lucy M.

AU - Djouma, Elvan

AU - Kodikara, Saritha

AU - Lê Cao, Kim Anh

AU - Dharmadasa, Thanuja

AU - Henders, Anjali K.

AU - Ziser, Laura A.

AU - Kiernan, Matthew C.

AU - Talbot, Kevin

AU - Needham, Merrilee

AU - Fletcher, Susan

AU - Talman, Paul

AU - Mathers, Susan

AU - Wray, Naomi R.

AU - Hewitt, Alex W.

AU - Pebay, Alice

AU - Turner, Bradley J.

PY - 2026/1

Y1 - 2026/1

N2 - Heterogeneous and predominantly sporadic neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS), remain highly challenging to model. Patient-derived induced pluripotent stem cell (iPSC) technologies offer great promise for these diseases; however, large-scale studies demonstrating accelerated neurodegeneration in patients with sporadic disease are limited. Here we generated an iPSC library from 100 patients with sporadic ALS (SALS) and conducted population-wide phenotypic screening. Motor neurons derived from patients with SALS recapitulated key aspects of the disease, including reduced survival, accelerated neurite degeneration correlating with donor survival, transcriptional dysregulation and pharmacological rescue by riluzole. Screening of drugs previously tested in ALS clinical trials revealed that 97% failed to mitigate neurodegeneration, reflecting trial outcomes and validating the SALS model. Combinatorial testing of effective drugs identified baricitinib, memantine and riluzole as a promising therapeutic combination for SALS. These findings demonstrate that patient-derived iPSC models can recapitulate sporadic disease features, paving the way for a new generation of disease modeling and therapeutic discovery in ALS.

AB - Heterogeneous and predominantly sporadic neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS), remain highly challenging to model. Patient-derived induced pluripotent stem cell (iPSC) technologies offer great promise for these diseases; however, large-scale studies demonstrating accelerated neurodegeneration in patients with sporadic disease are limited. Here we generated an iPSC library from 100 patients with sporadic ALS (SALS) and conducted population-wide phenotypic screening. Motor neurons derived from patients with SALS recapitulated key aspects of the disease, including reduced survival, accelerated neurite degeneration correlating with donor survival, transcriptional dysregulation and pharmacological rescue by riluzole. Screening of drugs previously tested in ALS clinical trials revealed that 97% failed to mitigate neurodegeneration, reflecting trial outcomes and validating the SALS model. Combinatorial testing of effective drugs identified baricitinib, memantine and riluzole as a promising therapeutic combination for SALS. These findings demonstrate that patient-derived iPSC models can recapitulate sporadic disease features, paving the way for a new generation of disease modeling and therapeutic discovery in ALS.

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Large-scale drug screening in iPSC-derived motor neurons from sporadic ALS patients identifies a potential combinatorial therapy

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