Neuroimaging endophenotypes reveal underlying mechanisms and genetic factors contributing to progression and development of four brain disorders

Junhao Wen; Ioanna Skampardoni; Ye Ella Tian; Zhijian Yang; Yuhan Cui; Guray Erus; Gyujoon Hwang; Erdem Varol; Aleix Boquet-Pujadas; Ganesh B. Chand; Ilya M. Nasrallah; Theodore D. Satterthwaite; Haochang Shou; Li Shen; Arthur W. Toga; Andrew Zalesky; Christos Davatzikos

doi:10.1038/s41551-025-01412-w

Neuroimaging endophenotypes reveal underlying mechanisms and genetic factors contributing to progression and development of four brain disorders

Junhao Wen, Ioanna Skampardoni, Ye Ella Tian, Zhijian Yang, Yuhan Cui, Guray Erus, Gyujoon Hwang, Erdem Varol, Aleix Boquet-Pujadas, Ganesh B. Chand, Ilya M. Nasrallah, Theodore D. Satterthwaite, Haochang Shou, Li Shen, Arthur W. Toga, Andrew Zalesky, Christos Davatzikos

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

Abstract

Recent work leveraging artificial intelligence has offered promise to dissect disease heterogeneity by identifying complex intermediate brain phenotypes, called dimensional neuroimaging endophenotypes (DNEs). We advance the argument that these DNEs capture the degree of expression of respective neuroanatomical patterns measured, offering a dimensional neuroanatomical representation for studying disease heterogeneity and similarities of neurologic and neuropsychiatric diseases. We investigate the presence of nine DNEs derived from independent yet harmonized studies on Alzheimer’s disease, autism spectrum disorder, late-life depression and schizophrenia in the UK Biobank study. Phenome-wide associations align with genome-wide associations, revealing 31 genomic loci (P < 5 × 10⁻⁸/9) associated with the nine DNEs. The nine DNEs, along with their polygenic risk scores, significantly enhanced the predictive accuracy for 14 systemic disease categories, particularly for conditions related to mental health and the central nervous system, as well as mortality outcomes. These findings underscore the potential of the nine DNEs to capture the expression of disease-related brain phenotypes in individuals of the general population and to relate such measures with genetics, lifestyle factors and chronic diseases.

Original language	English (US)
Journal	Nature Biomedical Engineering
DOIs	https://doi.org/10.1038/s41551-025-01412-w
State	Accepted/In press - 2025

ASJC Scopus subject areas

Biotechnology
Bioengineering
Medicine (miscellaneous)
Biomedical Engineering
Computer Science Applications

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10.1038/s41551-025-01412-w

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Wen, J., Skampardoni, I., Tian, Y. E., Yang, Z., Cui, Y., Erus, G., Hwang, G., Varol, E., Boquet-Pujadas, A., Chand, G. B., Nasrallah, I. M., Satterthwaite, T. D., Shou, H., Shen, L., Toga, A. W., Zalesky, A., & Davatzikos, C. (Accepted/In press). Neuroimaging endophenotypes reveal underlying mechanisms and genetic factors contributing to progression and development of four brain disorders. Nature Biomedical Engineering. https://doi.org/10.1038/s41551-025-01412-w

Wen, J, Skampardoni, I, Tian, YE, Yang, Z, Cui, Y, Erus, G, Hwang, G, Varol, E, Boquet-Pujadas, A, Chand, GB, Nasrallah, IM, Satterthwaite, TD, Shou, H, Shen, L, Toga, AW, Zalesky, A & Davatzikos, C 2025, 'Neuroimaging endophenotypes reveal underlying mechanisms and genetic factors contributing to progression and development of four brain disorders', Nature Biomedical Engineering. https://doi.org/10.1038/s41551-025-01412-w

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title = "Neuroimaging endophenotypes reveal underlying mechanisms and genetic factors contributing to progression and development of four brain disorders",

abstract = "Recent work leveraging artificial intelligence has offered promise to dissect disease heterogeneity by identifying complex intermediate brain phenotypes, called dimensional neuroimaging endophenotypes (DNEs). We advance the argument that these DNEs capture the degree of expression of respective neuroanatomical patterns measured, offering a dimensional neuroanatomical representation for studying disease heterogeneity and similarities of neurologic and neuropsychiatric diseases. We investigate the presence of nine DNEs derived from independent yet harmonized studies on Alzheimer{\textquoteright}s disease, autism spectrum disorder, late-life depression and schizophrenia in the UK Biobank study. Phenome-wide associations align with genome-wide associations, revealing 31 genomic loci (P < 5 × 10−8/9) associated with the nine DNEs. The nine DNEs, along with their polygenic risk scores, significantly enhanced the predictive accuracy for 14 systemic disease categories, particularly for conditions related to mental health and the central nervous system, as well as mortality outcomes. These findings underscore the potential of the nine DNEs to capture the expression of disease-related brain phenotypes in individuals of the general population and to relate such measures with genetics, lifestyle factors and chronic diseases.",

author = "Junhao Wen and Ioanna Skampardoni and Tian, {Ye Ella} and Zhijian Yang and Yuhan Cui and Guray Erus and Gyujoon Hwang and Erdem Varol and Aleix Boquet-Pujadas and Chand, {Ganesh B.} and Nasrallah, {Ilya M.} and Satterthwaite, {Theodore D.} and Haochang Shou and Li Shen and Toga, {Arthur W.} and Andrew Zalesky and Christos Davatzikos",

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year = "2025",

doi = "10.1038/s41551-025-01412-w",

language = "English (US)",

journal = "Nature Biomedical Engineering",

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AU - Wen, Junhao

AU - Skampardoni, Ioanna

AU - Tian, Ye Ella

AU - Yang, Zhijian

AU - Cui, Yuhan

AU - Erus, Guray

AU - Hwang, Gyujoon

AU - Varol, Erdem

AU - Boquet-Pujadas, Aleix

AU - Chand, Ganesh B.

AU - Nasrallah, Ilya M.

AU - Satterthwaite, Theodore D.

AU - Shou, Haochang

AU - Shen, Li

AU - Toga, Arthur W.

AU - Zalesky, Andrew

AU - Davatzikos, Christos

PY - 2025

Y1 - 2025

N2 - Recent work leveraging artificial intelligence has offered promise to dissect disease heterogeneity by identifying complex intermediate brain phenotypes, called dimensional neuroimaging endophenotypes (DNEs). We advance the argument that these DNEs capture the degree of expression of respective neuroanatomical patterns measured, offering a dimensional neuroanatomical representation for studying disease heterogeneity and similarities of neurologic and neuropsychiatric diseases. We investigate the presence of nine DNEs derived from independent yet harmonized studies on Alzheimer’s disease, autism spectrum disorder, late-life depression and schizophrenia in the UK Biobank study. Phenome-wide associations align with genome-wide associations, revealing 31 genomic loci (P < 5 × 10−8/9) associated with the nine DNEs. The nine DNEs, along with their polygenic risk scores, significantly enhanced the predictive accuracy for 14 systemic disease categories, particularly for conditions related to mental health and the central nervous system, as well as mortality outcomes. These findings underscore the potential of the nine DNEs to capture the expression of disease-related brain phenotypes in individuals of the general population and to relate such measures with genetics, lifestyle factors and chronic diseases.

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Neuroimaging endophenotypes reveal underlying mechanisms and genetic factors contributing to progression and development of four brain disorders

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