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Multi-ancestry GWAS of Fuchs corneal dystrophy highlights roles of laminins, collagen, and endothelial cell regulation.

Publication ,  Journal Article
Peachey, N; Gorman, B; Francis, M; Nealon, C; Halladay, C; Duro, N; Markianos, K; Genovese, G; Hysi, P; Choquet, H; Afshari, N; Li, Y-J ...
Published in: Res Sq
May 3, 2023

Fuchs endothelial corneal dystrophy (FECD) is a leading indication for corneal transplantation, but its molecular pathophysiology remains poorly understood. We performed genome-wide association studies (GWAS) of FECD in the Million Veteran Program (MVP) and meta-analyzed with the previous largest FECD GWAS, finding twelve significant loci (eight novel). We further confirmed the TCF4 locus in admixed African and Hispanic/Latino ancestries, and found an enrichment of European-ancestry haplotypes at TCF4 in FECD cases. Among the novel associations are low frequency missense variants in laminin genes LAMA5 and LAMB1 which, together with previously reported LAMC1, form laminin-511 (LM511). AlphaFold 2 protein modeling suggests that mutations at LAMA5 and LAMB1 may destabilize LM511 by altering inter-domain interactions or extracellular matrix binding. Finally, phenome-wide association scans and co-localization analyses suggest that the TCF4 CTG18.1 trinucleotide repeat expansion leads to dysregulation of ion transport in the corneal endothelium and has pleiotropic effects on renal function.

Duke Scholars

Published In

Res Sq

DOI

EISSN

2693-5015

Publication Date

May 3, 2023

Location

United States
 

Citation

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Peachey, N., Gorman, B., Francis, M., Nealon, C., Halladay, C., Duro, N., … Iyengar, S. (2023). Multi-ancestry GWAS of Fuchs corneal dystrophy highlights roles of laminins, collagen, and endothelial cell regulation. Res Sq. https://doi.org/10.21203/rs.3.rs-2762003/v1
Peachey, Neal, Bryan Gorman, Michael Francis, Cari Nealon, Christopher Halladay, Nalvi Duro, Kyriacos Markianos, et al. “Multi-ancestry GWAS of Fuchs corneal dystrophy highlights roles of laminins, collagen, and endothelial cell regulation.Res Sq, May 3, 2023. https://doi.org/10.21203/rs.3.rs-2762003/v1.
Peachey N, Gorman B, Francis M, Nealon C, Halladay C, Duro N, et al. Multi-ancestry GWAS of Fuchs corneal dystrophy highlights roles of laminins, collagen, and endothelial cell regulation. Res Sq. 2023 May 3;
Peachey, Neal, et al. “Multi-ancestry GWAS of Fuchs corneal dystrophy highlights roles of laminins, collagen, and endothelial cell regulation.Res Sq, May 2023. Pubmed, doi:10.21203/rs.3.rs-2762003/v1.
Peachey N, Gorman B, Francis M, Nealon C, Halladay C, Duro N, Markianos K, Genovese G, Hysi P, Choquet H, Afshari N, Li Y-J, Gaziano JM, Hung A, Wu W-C, Greenberg P, Pyarajan S, Lass J, Iyengar S. Multi-ancestry GWAS of Fuchs corneal dystrophy highlights roles of laminins, collagen, and endothelial cell regulation. Res Sq. 2023 May 3;

Published In

Res Sq

DOI

EISSN

2693-5015

Publication Date

May 3, 2023

Location

United States