Abundant pleiotropy across neuroimaging modalities identified through a multivariate genome-wide association study

E. P. Tissink; A. A. Shadrin; D. van der Meer; N. Parker; G. Hindley; D. Roelfs; O. Frei; C. C. Fan; M. Nagel; T. Nærland; M. Budisteanu; S. Djurovic; L. T. Westlye; M. P. van den Heuvel; D. Posthuma; T. Kaufmann; A. M. Dale; O. A. Andreassen

doi:10.1038/s41467-024-46817-4

Abundant pleiotropy across neuroimaging modalities identified through a multivariate genome-wide association study

E. P. Tissink, A. A. Shadrin, D. van der Meer, N. Parker, G. Hindley, D. Roelfs, O. Frei, C. C. Fan, M. Nagel, T. Nærland, M. Budisteanu, S. Djurovic, L. T. Westlye, M. P. van den Heuvel, D. Posthuma, T. Kaufmann, A. M. Dale, O. A. Andreassen

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

Abstract

Genetic pleiotropy is abundant across spatially distributed brain characteristics derived from one neuroimaging modality (e.g. structural, functional or diffusion magnetic resonance imaging [MRI]). A better understanding of pleiotropy across modalities could inform us on the integration of brain function, micro- and macrostructure. Here we show extensive genetic overlap across neuroimaging modalities at a locus and gene level in the UK Biobank (N = 34,029) and ABCD Study (N = 8607). When jointly analysing phenotypes derived from structural, functional and diffusion MRI in a genome-wide association study (GWAS) with the Multivariate Omnibus Statistical Test (MOSTest), we boost the discovery of loci and genes beyond previously identified effects for each modality individually. Cross-modality genes are involved in fundamental biological processes and predominantly expressed during prenatal brain development. We additionally boost prediction of psychiatric disorders by conditioning independent GWAS on our multimodal multivariate GWAS. These findings shed light on the shared genetic mechanisms underlying variation in brain morphology, functional connectivity, and tissue composition.

Original language	English
Article number	2655
Pages (from-to)	1-13
Number of pages	13
Journal	Nature communications
Volume	15
Early online date	26 Mar 2024
DOIs	https://doi.org/10.1038/s41467-024-46817-4
Publication status	Published - 2024

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Tissink, E. P., Shadrin, A. A., van der Meer, D., Parker, N., Hindley, G., Roelfs, D., Frei, O., Fan, C. C., Nagel, M., Nærland, T., Budisteanu, M., Djurovic, S., Westlye, L. T., van den Heuvel, M. P., Posthuma, D., Kaufmann, T., Dale, A. M., & Andreassen, O. A. (2024). Abundant pleiotropy across neuroimaging modalities identified through a multivariate genome-wide association study. Nature communications, 15, 1-13. Article 2655. https://doi.org/10.1038/s41467-024-46817-4

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abstract = "Genetic pleiotropy is abundant across spatially distributed brain characteristics derived from one neuroimaging modality (e.g. structural, functional or diffusion magnetic resonance imaging [MRI]). A better understanding of pleiotropy across modalities could inform us on the integration of brain function, micro- and macrostructure. Here we show extensive genetic overlap across neuroimaging modalities at a locus and gene level in the UK Biobank (N = 34,029) and ABCD Study (N = 8607). When jointly analysing phenotypes derived from structural, functional and diffusion MRI in a genome-wide association study (GWAS) with the Multivariate Omnibus Statistical Test (MOSTest), we boost the discovery of loci and genes beyond previously identified effects for each modality individually. Cross-modality genes are involved in fundamental biological processes and predominantly expressed during prenatal brain development. We additionally boost prediction of psychiatric disorders by conditioning independent GWAS on our multimodal multivariate GWAS. These findings shed light on the shared genetic mechanisms underlying variation in brain morphology, functional connectivity, and tissue composition.",

author = "Tissink, {E. P.} and Shadrin, {A. A.} and {van der Meer}, D. and N. Parker and G. Hindley and D. Roelfs and O. Frei and Fan, {C. C.} and M. Nagel and T. N{\ae}rland and M. Budisteanu and S. Djurovic and Westlye, {L. T.} and {van den Heuvel}, {M. P.} and D. Posthuma and T. Kaufmann and Dale, {A. M.} and Andreassen, {O. A.}",

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year = "2024",

doi = "10.1038/s41467-024-46817-4",

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Tissink, EP, Shadrin, AA, van der Meer, D, Parker, N, Hindley, G, Roelfs, D, Frei, O, Fan, CC, Nagel, M, Nærland, T, Budisteanu, M, Djurovic, S, Westlye, LT, van den Heuvel, MP, Posthuma, D, Kaufmann, T, Dale, AM & Andreassen, OA 2024, 'Abundant pleiotropy across neuroimaging modalities identified through a multivariate genome-wide association study', Nature communications, vol. 15, 2655, pp. 1-13. https://doi.org/10.1038/s41467-024-46817-4

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AU - Djurovic, S.

AU - Westlye, L. T.

AU - van den Heuvel, M. P.

AU - Posthuma, D.

AU - Kaufmann, T.

AU - Dale, A. M.

AU - Andreassen, O. A.

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Abundant pleiotropy across neuroimaging modalities identified through a multivariate genome-wide association study

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