Comprehensive identification of somatic nucleotide variants in human brain tissue

Author:

Wang Yifan, ,Bae Taejeong,Thorpe Jeremy,Sherman Maxwell A.,Jones Attila G.,Cho Sean,Daily Kenneth,Dou Yanmei,Ganz Javier,Galor Alon,Lobon Irene,Pattni Reenal,Rosenbluh Chaggai,Tomasi Simone,Tomasini Livia,Yang Xiaoxu,Zhou Bo,Akbarian Schahram,Ball Laurel L.,Bizzotto Sara,Emery Sarah B.,Doan Ryan,Fasching Liana,Jang Yeongjun,Juan David,Lizano Esther,Luquette Lovelace J.,Moldovan John B.,Narurkar Rujuta,Oetjens Matthew T.,Rodin Rachel E.,Sekar Shobana,Shin Joo Heon,Soriano Eduardo,Straub Richard E.,Zhou Weichen,Chess Andrew,Gleeson Joseph G.,Marquès-Bonet Tomas,Park Peter J.,Peters Mette A.,Pevsner Jonathan,Walsh Christopher A.,Weinberger Daniel R.,Vaccarino Flora M.,Moran John V.,Urban Alexander E.,Kidd Jeffrey M.,Mills Ryan E.,Abyzov AlexejORCID

Abstract

Abstract Background Post-zygotic mutations incurred during DNA replication, DNA repair, and other cellular processes lead to somatic mosaicism. Somatic mosaicism is an established cause of various diseases, including cancers. However, detecting mosaic variants in DNA from non-cancerous somatic tissues poses significant challenges, particularly if the variants only are present in a small fraction of cells. Results Here, the Brain Somatic Mosaicism Network conducts a coordinated, multi-institutional study to examine the ability of existing methods to detect simulated somatic single-nucleotide variants (SNVs) in DNA mixing experiments, generate multiple replicates of whole-genome sequencing data from the dorsolateral prefrontal cortex, other brain regions, dura mater, and dural fibroblasts of a single neurotypical individual, devise strategies to discover somatic SNVs, and apply various approaches to validate somatic SNVs. These efforts lead to the identification of 43 bona fide somatic SNVs that range in variant allele fractions from ~ 0.005 to ~ 0.28. Guided by these results, we devise best practices for calling mosaic SNVs from 250× whole-genome sequencing data in the accessible portion of the human genome that achieve 90% specificity and sensitivity. Finally, we demonstrate that analysis of multiple bulk DNA samples from a single individual allows the reconstruction of early developmental cell lineage trees. Conclusions This study provides a unified set of best practices to detect somatic SNVs in non-cancerous tissues. The data and methods are freely available to the scientific community and should serve as a guide to assess the contributions of somatic SNVs to neuropsychiatric diseases.

Funder

National Institute of Mental Health

Publisher

Springer Science and Business Media LLC

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