Disease-associated Mosaic Variation in Clinical Exome Sequencing: a Two-year Pediatric Tertiary Care Experience

Overview

Journal Cold Spring Harb Mol Case Stud

Specialty Genetics

Date 2020 May 7

PMID 32371413

Citations 15

Authors

Cecelia R Miller

Kristy Lee

Ruthann B Pfau

Shalini C Reshmi

Donald J Corsmeier

Sayaka Hashimoto

Ashita Dave-Wala

Vijayakumar Jayaraman

Daniel Koboldt

Theodora Matthews

Danielle Mouhlas

Maggie Stein

Aimee McKinney

Tom Grossman

Benjamin J Kelly

Peter White

Vincent Magrini

Richard K Wilson

Elaine R Mardis

Catherine E Cottrell

Affiliations

Soon will be listed here.

Abstract

Exome sequencing (ES) has become an important tool in pediatric genomic medicine, improving identification of disease-associated variation due to assay breadth. Depth is also afforded by ES, enabling detection of lower-frequency mosaic variation compared to Sanger sequencing in the studied tissue, thus enhancing diagnostic yield. Within a pediatric tertiary-care hospital, we report two years of clinical ES data from probands evaluated for genetic disease to assess diagnostic yield, characteristics of causal variants, and prevalence of mosaicism among disease-causing variants. Exome-derived, phenotype-driven variant data from 357 probands was analyzed concurrent with parental ES data, when available. Blood was the source of nucleic acid. Sequence read alignments were manually reviewed for all assessed variants. Sanger sequencing was used for suspected de novo or mosaic variation. Clinical provider notes were reviewed to determine concordance between laboratory-reported data and the ordering provider's interpretation of variant-associated disease causality. Laboratory-derived diagnostic yield and provider-substantiated diagnoses had 91.4% concordance. The cohort returned 117 provider-substantiated diagnoses among 115 probands for a diagnostic yield of 32.2%. De novo variants represented 64.9% of disease-associated variation within trio analyses. Among the 115 probands, five harbored disease-associated somatic mosaic variation. Two additional probands were observed to inherit a disease-associated variant from an unaffected mosaic parent. Among inheritance patterns, de novo variation was the most frequent disease etiology. Somatic mosaicism is increasingly recognized as a significant contributor to genetic disease, particularly with increased sequence depth attainable from ES. This report highlights the potential and importance of detecting mosaicism in ES.

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