A transcriptome-wide association study based on 27 tissues identifies 106 genes potentially relevant for disease pathology in age-related macular degeneration

Tobias Strunz; Susette Lauwen; Christina Kiel; International AMD Genomics Consortium (IAMDGC)

doi:10.1038/s41598-020-58510-9

A transcriptome-wide association study based on 27 tissues identifies 106 genes potentially relevant for disease pathology in age-related macular degeneration

Tobias Strunz
, Susette Lauwen
, Christina Kiel
, International AMD Genomics Consortium (IAMDGC)

Institute for Human Genomics
Leonard M. Miller School of Medicine
University of Regensburg
Donders Institute for Brain, Cognition and Behaviour
University of Michigan, Ann Arbor
Case Western Reserve University School of Medicine
Menzies Institute for Medical Research
Marshfield Clinic
Veterans Affairs San Diego Healthcare System
Hebrew SeniorLife
UPenn School of Medicine
Johns Hopkins School of Medicine
Université Pierre et Marie Curie
CHI de Créteil
University of Bonn
Department of Veterans Affairs
University of Wisconsin-Madison
Harvard T.H. Chan School of Public Health
University of Sydney
Columbia University
University College London
Moorfields Eye Hospital NHS Foundation Trust
Vanderbilt University School of Medicine
University Hospital Cologne
Radboud University Medical Center
University of Melbourne
University of Texas Rio Grande Valley
University of Pittsburgh
Medical Research Council Human Genetics Unit
University of Texas Southwestern Medical Center
National Eye Institute (NEI)

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

47 Citations (Scopus)

40 Downloads (Pure)

Abstract

Genome-wide association studies (GWAS) for late stage age-related macular degeneration (AMD) have identified 52 independent genetic variants with genome-wide significance at 34 genomic loci. Typically, such an approach rarely results in the identification of functional variants implicating a defined gene in the disease process. We now performed a transcriptome-wide association study (TWAS) allowing the prediction of effects of AMD-associated genetic variants on gene expression. The TWAS was based on the genotypes of 16,144 late-stage AMD cases and 17,832 healthy controls, and gene expression was imputed for 27 different human tissues which were obtained from 134 to 421 individuals. A linear regression model including each individuals imputed gene expression data and the respective AMD status identified 106 genes significantly associated to AMD variants in at least one tissue (Q-value < 0.001). Gene enrichment analysis highlighted rather systemic than tissue- or cell-specific processes. Remarkably, 31 of the 106 genes overlapped with significant GWAS signals of other complex traits and diseases, such as neurological or autoimmune conditions. Taken together, our study highlights the fact that expression of genes associated with AMD is not restricted to retinal tissue as could be expected for an eye disease of the posterior pole, but instead is rather ubiquitous suggesting processes underlying AMD pathology to be of systemic nature.

Original language	English
Article number	1584
Journal	Scientific Reports
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41598-020-58510-9
Publication status	Published - 31 Jan 2020

Bibliographical note

Funding Information:
S.L. is supported by a Junior Researcher grant from the Donders Center for Medical Neuroscience and Radboudumc. The work has been supported in part by institutional funds (TG77) of the Institute of Human Genetics Regensburg and by a grant from the Helmut Ecker Foundation (Ingolstadt, Germany) to BHFW (No. 05/17). We would like to acknowledge the contribution of the International AMD Genomics Consortium (IAMDGC) that is supported by a grant from NIH (R01 EY022310). Genotyping was supported by a contract (HHSN268201200008I) to the Center for Inherited Disease Research.

Publisher Copyright:
© 2020, The Author(s).

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Access to Document

10.1038/s41598-020-58510-9Licence: CC BY

A transcriptome-wide association study based on 27 tissues identifies 106 genes potentially relevant for disease pathology in age-related macular degenerationFinal published version, 2.12 MBLicence: CC BY

Cite this

@article{88b8a241133c4d0487b1676f745d4ed6,

title = "A transcriptome-wide association study based on 27 tissues identifies 106 genes potentially relevant for disease pathology in age-related macular degeneration",

abstract = "Genome-wide association studies (GWAS) for late stage age-related macular degeneration (AMD) have identified 52 independent genetic variants with genome-wide significance at 34 genomic loci. Typically, such an approach rarely results in the identification of functional variants implicating a defined gene in the disease process. We now performed a transcriptome-wide association study (TWAS) allowing the prediction of effects of AMD-associated genetic variants on gene expression. The TWAS was based on the genotypes of 16,144 late-stage AMD cases and 17,832 healthy controls, and gene expression was imputed for 27 different human tissues which were obtained from 134 to 421 individuals. A linear regression model including each individuals imputed gene expression data and the respective AMD status identified 106 genes significantly associated to AMD variants in at least one tissue (Q-value < 0.001). Gene enrichment analysis highlighted rather systemic than tissue- or cell-specific processes. Remarkably, 31 of the 106 genes overlapped with significant GWAS signals of other complex traits and diseases, such as neurological or autoimmune conditions. Taken together, our study highlights the fact that expression of genes associated with AMD is not restricted to retinal tissue as could be expected for an eye disease of the posterior pole, but instead is rather ubiquitous suggesting processes underlying AMD pathology to be of systemic nature.",

author = "Tobias Strunz and Susette Lauwen and Christina Kiel and \{International AMD Genomics Consortium (IAMDGC)\} and Fritsche, \{Lars G.\} and Wilmar Igl and Bailey, \{Jessica N.Cooke\} and Felix Grassmann and Sebanti Sengupta and Bragg-Gresham, \{Jennifer L.\} and Burdon, \{Kathryn P.\} and Hebbring, \{Scott J.\} and Cindy Wen and Mathias Gorski and Kim, \{Ivana K.\} and David Cho and Donald Zack and Eric Souied and Scholl, \{Hendrik P.N.\} and Elisa Bala and Lee, \{Kristine E.\} and Hunter, \{David J.\} and Sardell, \{Rebecca J.\} and Paul Mitchell and Merriam, \{Joanna E.\} and Valentina Cipriani and Hoffman, \{Joshua D.\} and Tina Schick and Lechanteur, \{Yara T.E.\} and Guymer, \{Robyn H.\} and Johnson, \{Matthew P.\} and Yingda Jiang and Stanton, \{Chloe M.\} and Buitendijk, \{Gabri{\"e}lle H.S.\} and Xiaowei Zhan and Kwong, \{Alan M.\} and Alexis Boleda and Matthew Brooks and Linn Gieser and Rinki Ratnapriya and Branham, \{Kari E.\} and Foerster, \{Johanna R.\} and Heckenlively, \{John R.\} and Othman, \{Mohammad I.\} and Vote, \{Brendan J.\} and Jong, \{Eiko K.de\} and Duijn, \{Cornelia M.van\} and Klaver, \{Caroline C.W.\} and Hollander, \{Anneke I.den\} and Wang, \{Jie Jin\} and Hollander, \{Anneke I.den\}",

note = "Funding Information: S.L. is supported by a Junior Researcher grant from the Donders Center for Medical Neuroscience and Radboudumc. The work has been supported in part by institutional funds (TG77) of the Institute of Human Genetics Regensburg and by a grant from the Helmut Ecker Foundation (Ingolstadt, Germany) to BHFW (No. 05/17). We would like to acknowledge the contribution of the International AMD Genomics Consortium (IAMDGC) that is supported by a grant from NIH (R01 EY022310). Genotyping was supported by a contract (HHSN268201200008I) to the Center for Inherited Disease Research. Publisher Copyright: {\textcopyright} 2020, The Author(s).",

year = "2020",

month = jan,

day = "31",

doi = "10.1038/s41598-020-58510-9",

language = "English",

volume = "10",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Research",

number = "1",

}

TY - JOUR

T1 - A transcriptome-wide association study based on 27 tissues identifies 106 genes potentially relevant for disease pathology in age-related macular degeneration

AU - Strunz, Tobias

AU - Lauwen, Susette

AU - Kiel, Christina

AU - International AMD Genomics Consortium (IAMDGC)

AU - Fritsche, Lars G.

AU - Igl, Wilmar

AU - Bailey, Jessica N.Cooke

AU - Grassmann, Felix

AU - Sengupta, Sebanti

AU - Bragg-Gresham, Jennifer L.

AU - Burdon, Kathryn P.

AU - Hebbring, Scott J.

AU - Wen, Cindy

AU - Gorski, Mathias

AU - Kim, Ivana K.

AU - Cho, David

AU - Zack, Donald

AU - Souied, Eric

AU - Scholl, Hendrik P.N.

AU - Bala, Elisa

AU - Lee, Kristine E.

AU - Hunter, David J.

AU - Sardell, Rebecca J.

AU - Mitchell, Paul

AU - Merriam, Joanna E.

AU - Cipriani, Valentina

AU - Hoffman, Joshua D.

AU - Schick, Tina

AU - Lechanteur, Yara T.E.

AU - Guymer, Robyn H.

AU - Johnson, Matthew P.

AU - Jiang, Yingda

AU - Stanton, Chloe M.

AU - Buitendijk, Gabriëlle H.S.

AU - Zhan, Xiaowei

AU - Kwong, Alan M.

AU - Boleda, Alexis

AU - Brooks, Matthew

AU - Gieser, Linn

AU - Ratnapriya, Rinki

AU - Branham, Kari E.

AU - Foerster, Johanna R.

AU - Heckenlively, John R.

AU - Othman, Mohammad I.

AU - Vote, Brendan J.

AU - Jong, Eiko K.de

AU - Duijn, Cornelia M.van

AU - Klaver, Caroline C.W.

AU - Hollander, Anneke I.den

AU - Wang, Jie Jin

AU - Hollander, Anneke I.den

N1 - Funding Information: S.L. is supported by a Junior Researcher grant from the Donders Center for Medical Neuroscience and Radboudumc. The work has been supported in part by institutional funds (TG77) of the Institute of Human Genetics Regensburg and by a grant from the Helmut Ecker Foundation (Ingolstadt, Germany) to BHFW (No. 05/17). We would like to acknowledge the contribution of the International AMD Genomics Consortium (IAMDGC) that is supported by a grant from NIH (R01 EY022310). Genotyping was supported by a contract (HHSN268201200008I) to the Center for Inherited Disease Research. Publisher Copyright: © 2020, The Author(s).

PY - 2020/1/31

Y1 - 2020/1/31

N2 - Genome-wide association studies (GWAS) for late stage age-related macular degeneration (AMD) have identified 52 independent genetic variants with genome-wide significance at 34 genomic loci. Typically, such an approach rarely results in the identification of functional variants implicating a defined gene in the disease process. We now performed a transcriptome-wide association study (TWAS) allowing the prediction of effects of AMD-associated genetic variants on gene expression. The TWAS was based on the genotypes of 16,144 late-stage AMD cases and 17,832 healthy controls, and gene expression was imputed for 27 different human tissues which were obtained from 134 to 421 individuals. A linear regression model including each individuals imputed gene expression data and the respective AMD status identified 106 genes significantly associated to AMD variants in at least one tissue (Q-value < 0.001). Gene enrichment analysis highlighted rather systemic than tissue- or cell-specific processes. Remarkably, 31 of the 106 genes overlapped with significant GWAS signals of other complex traits and diseases, such as neurological or autoimmune conditions. Taken together, our study highlights the fact that expression of genes associated with AMD is not restricted to retinal tissue as could be expected for an eye disease of the posterior pole, but instead is rather ubiquitous suggesting processes underlying AMD pathology to be of systemic nature.

AB - Genome-wide association studies (GWAS) for late stage age-related macular degeneration (AMD) have identified 52 independent genetic variants with genome-wide significance at 34 genomic loci. Typically, such an approach rarely results in the identification of functional variants implicating a defined gene in the disease process. We now performed a transcriptome-wide association study (TWAS) allowing the prediction of effects of AMD-associated genetic variants on gene expression. The TWAS was based on the genotypes of 16,144 late-stage AMD cases and 17,832 healthy controls, and gene expression was imputed for 27 different human tissues which were obtained from 134 to 421 individuals. A linear regression model including each individuals imputed gene expression data and the respective AMD status identified 106 genes significantly associated to AMD variants in at least one tissue (Q-value < 0.001). Gene enrichment analysis highlighted rather systemic than tissue- or cell-specific processes. Remarkably, 31 of the 106 genes overlapped with significant GWAS signals of other complex traits and diseases, such as neurological or autoimmune conditions. Taken together, our study highlights the fact that expression of genes associated with AMD is not restricted to retinal tissue as could be expected for an eye disease of the posterior pole, but instead is rather ubiquitous suggesting processes underlying AMD pathology to be of systemic nature.

UR - https://www.scopus.com/pages/publications/85078851693

U2 - 10.1038/s41598-020-58510-9

DO - 10.1038/s41598-020-58510-9

M3 - Article

C2 - 32005911

AN - SCOPUS:85078851693

SN - 2045-2322

VL - 10

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 1584

ER -

A transcriptome-wide association study based on 27 tissues identifies 106 genes potentially relevant for disease pathology in age-related macular degeneration

Abstract

Bibliographical note

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this