GWAS highlights the neuronal contribution to multiple sclerosis susceptibility

Lu Zeng
Khan Atlas
Tsering Lama
the International Multiple Sclerosis Genetics Consortium
Tanuja Chitnis
Howard Weiner
Gao Wang
Masashi Fujita
Frauke Zipp
Mariko Taga
Krzysztof Kiryluk
Philip L. De Jager

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Abstract

Multiple Sclerosis (MS) is a chronic inflammatory and neurodegenerative disease affecting the brain and spinal cord. Genetic studies have identified many risk loci, that were thought to primarily impact immune cells and microglia. Here, we performed a multi-ancestry genome- wide association study with 20,831 MS and 729,220 control participants, identifying 236 susceptibility variants outside the Major Histocompatibility Complex, including four novel loci. We derived a polygenic score for MS and, optimized for European ancestry, it is informative for African-American and Latino participants. Integrating single-cell data from blood and brain tissue, we identified 76 genes affected by MS risk variants. Notably, while T cells showed the strongest enrichment, inhibitory neurons emerged as a key cell type, highlighting the importance of neuronal and glial dysfunction in MS susceptibility.

Version published to 10.1101/2024.12.04.24318500v1 on medRxiv
Dec 5, 2024

GWAS highlights the neuronal contribution to multiple sclerosis susceptibility

This article has 11 authors:
1. Philip De Jager
2. Lu Zeng
3. Atlas Khan
4. Tsering Lama
5. Tanuja Chitnis
6. Howard Weiner
7. Gao Wang
8. Masashi Fujita
9. Frauke Zipp
10. Mariko Taga
11. Krzysztof Kiryluk
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3. Sara Larivière
4. Valeria Kebets
5. Serena Fett
6. Clara F. Weber
7. Jessica Royer
8. Eric Yu
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10. Zhiqiang Zhang
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12. B.T. Thomas Yeo
13. Birgit Frauscher
14. Casey Paquola
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