Whole-exome sequencing in undiagnosed genetic diseases: Interpreting 119 trios

Xiaolin Zhu; Slavé Petrovski; Pingxing Xie; Elizabeth K. Ruzzo; Yi Fan Lu; K. Melodi McSweeney; Bruria Ben-Zeev; Andreea Nissenkorn; Yair Anikster; Danit Oz-Levi; Ryan S. Dhindsa; Yuki Hitomi; Kelly Schoch; Rebecca C. Spillmann; Gali Heimer; Dina Marek-Yagel; Michal Tzadok; Yujun Han; Gordon Worley; Jennifer Goldstein; Yong Hui Jiang; Doron Lancet; Elon Pras; Vandana Shashi; Duncan Mchale; Anna C. Need; David B. Goldstein

doi:10.1038/gim.2014.191

Whole-exome sequencing in undiagnosed genetic diseases: Interpreting 119 trios

Xiaolin Zhu, Slavé Petrovski^*, Pingxing Xie, Elizabeth K. Ruzzo, Yi Fan Lu, K. Melodi McSweeney, Bruria Ben-Zeev, Andreea Nissenkorn, Yair Anikster, Danit Oz-Levi, Ryan S. Dhindsa, Yuki Hitomi, Kelly Schoch, Rebecca C. Spillmann, Gali Heimer, Dina Marek-Yagel, Michal Tzadok, Yujun Han, Gordon Worley, Jennifer GoldsteinYong Hui Jiang, Doron Lancet, Elon Pras, Vandana Shashi, Duncan Mchale, Anna C. Need, David B. Goldstein

^*Corresponding author for this work

Pediatrics

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

270 Scopus citations

Abstract

Purpose:Despite the recognized clinical value of exome-based diagnostics, methods for comprehensive genomic interpretation remain immature. Diagnoses are based on known or presumed pathogenic variants in genes already associated with a similar phenotype. Here, we extend this paradigm by evaluating novel bioinformatics approaches to aid identification of new gene-disease associations.Methods:We analyzed 119 trios to identify both diagnostic genotypes in known genes and candidate genotypes in novel genes. We considered qualifying genotypes based on their population frequency and in silico predicted effects we also characterized the patterns of genotypes enriched among this collection of patients.Results:We obtained a genetic diagnosis for 29 (24%) of our patients. We showed that patients carried an excess of damaging de novo mutations in intolerant genes, particularly those shown to be essential in mice (P = 3.4 × 10 -8). This enrichment is only partially explained by mutations found in known disease-causing genes.Conclusion:This work indicates that the application of appropriate bioinformatics analyses to clinical sequence data can also help implicate novel disease genes and suggest expanded phenotypes for known disease genes. These analyses further suggest that some cases resolved by whole-exome sequencing will have direct therapeutic implications.

Original language	English
Pages (from-to)	774-781
Number of pages	8
Journal	Genetics in Medicine
Volume	17
Issue number	10
DOIs	https://doi.org/10.1038/gim.2014.191
State	Published - 1 Oct 2015

Funding

Funders	Funder number
National Institutes of Health	U19AI067854, UC2HL102923, RC2HL103010
National Institute of Neurological Disorders and Stroke	U01NS077303

Keywords

HNRNPU
diagnosis
genic intolerance
rare disease
whole-exome sequencing

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10.1038/gim.2014.191

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Zhu, X., Petrovski, S., Xie, P., Ruzzo, E. K., Lu, Y. F., McSweeney, K. M., Ben-Zeev, B., Nissenkorn, A., Anikster, Y., Oz-Levi, D., Dhindsa, R. S., Hitomi, Y., Schoch, K., Spillmann, R. C., Heimer, G., Marek-Yagel, D., Tzadok, M., Han, Y., Worley, G., ... Goldstein, D. B. (2015). Whole-exome sequencing in undiagnosed genetic diseases: Interpreting 119 trios. Genetics in Medicine, 17(10), 774-781. https://doi.org/10.1038/gim.2014.191

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title = "Whole-exome sequencing in undiagnosed genetic diseases: Interpreting 119 trios",

abstract = "Purpose:Despite the recognized clinical value of exome-based diagnostics, methods for comprehensive genomic interpretation remain immature. Diagnoses are based on known or presumed pathogenic variants in genes already associated with a similar phenotype. Here, we extend this paradigm by evaluating novel bioinformatics approaches to aid identification of new gene-disease associations.Methods:We analyzed 119 trios to identify both diagnostic genotypes in known genes and candidate genotypes in novel genes. We considered qualifying genotypes based on their population frequency and in silico predicted effects we also characterized the patterns of genotypes enriched among this collection of patients.Results:We obtained a genetic diagnosis for 29 (24%) of our patients. We showed that patients carried an excess of damaging de novo mutations in intolerant genes, particularly those shown to be essential in mice (P = 3.4 × 10 -8). This enrichment is only partially explained by mutations found in known disease-causing genes.Conclusion:This work indicates that the application of appropriate bioinformatics analyses to clinical sequence data can also help implicate novel disease genes and suggest expanded phenotypes for known disease genes. These analyses further suggest that some cases resolved by whole-exome sequencing will have direct therapeutic implications.",

keywords = "HNRNPU, diagnosis, genic intolerance, rare disease, whole-exome sequencing",

author = "Xiaolin Zhu and Slav{\'e} Petrovski and Pingxing Xie and Ruzzo, {Elizabeth K.} and Lu, {Yi Fan} and McSweeney, {K. Melodi} and Bruria Ben-Zeev and Andreea Nissenkorn and Yair Anikster and Danit Oz-Levi and Dhindsa, {Ryan S.} and Yuki Hitomi and Kelly Schoch and Spillmann, {Rebecca C.} and Gali Heimer and Dina Marek-Yagel and Michal Tzadok and Yujun Han and Gordon Worley and Jennifer Goldstein and Jiang, {Yong Hui} and Doron Lancet and Elon Pras and Vandana Shashi and Duncan Mchale and Need, {Anna C.} and Goldstein, {David B.}",

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year = "2015",

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doi = "10.1038/gim.2014.191",

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Zhu, X, Petrovski, S, Xie, P, Ruzzo, EK, Lu, YF, McSweeney, KM, Ben-Zeev, B , Nissenkorn, A , Anikster, Y, Oz-Levi, D, Dhindsa, RS, Hitomi, Y, Schoch, K, Spillmann, RC, Heimer, G, Marek-Yagel, D, Tzadok, M, Han, Y, Worley, G, Goldstein, J, Jiang, YH, Lancet, D, Pras, E, Shashi, V, Mchale, D, Need, AC & Goldstein, DB 2015, 'Whole-exome sequencing in undiagnosed genetic diseases: Interpreting 119 trios', Genetics in Medicine, vol. 17, no. 10, pp. 774-781. https://doi.org/10.1038/gim.2014.191

TY - JOUR

T1 - Whole-exome sequencing in undiagnosed genetic diseases

T2 - Interpreting 119 trios

AU - Zhu, Xiaolin

AU - Petrovski, Slavé

AU - Xie, Pingxing

AU - Ruzzo, Elizabeth K.

AU - Lu, Yi Fan

AU - McSweeney, K. Melodi

AU - Ben-Zeev, Bruria

AU - Nissenkorn, Andreea

AU - Anikster, Yair

AU - Oz-Levi, Danit

AU - Dhindsa, Ryan S.

AU - Hitomi, Yuki

AU - Schoch, Kelly

AU - Spillmann, Rebecca C.

AU - Heimer, Gali

AU - Marek-Yagel, Dina

AU - Tzadok, Michal

AU - Han, Yujun

AU - Worley, Gordon

AU - Goldstein, Jennifer

AU - Jiang, Yong Hui

AU - Lancet, Doron

AU - Pras, Elon

AU - Shashi, Vandana

AU - Mchale, Duncan

AU - Need, Anna C.

AU - Goldstein, David B.

PY - 2015/10/1

Y1 - 2015/10/1

N2 - Purpose:Despite the recognized clinical value of exome-based diagnostics, methods for comprehensive genomic interpretation remain immature. Diagnoses are based on known or presumed pathogenic variants in genes already associated with a similar phenotype. Here, we extend this paradigm by evaluating novel bioinformatics approaches to aid identification of new gene-disease associations.Methods:We analyzed 119 trios to identify both diagnostic genotypes in known genes and candidate genotypes in novel genes. We considered qualifying genotypes based on their population frequency and in silico predicted effects we also characterized the patterns of genotypes enriched among this collection of patients.Results:We obtained a genetic diagnosis for 29 (24%) of our patients. We showed that patients carried an excess of damaging de novo mutations in intolerant genes, particularly those shown to be essential in mice (P = 3.4 × 10 -8). This enrichment is only partially explained by mutations found in known disease-causing genes.Conclusion:This work indicates that the application of appropriate bioinformatics analyses to clinical sequence data can also help implicate novel disease genes and suggest expanded phenotypes for known disease genes. These analyses further suggest that some cases resolved by whole-exome sequencing will have direct therapeutic implications.

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KW - diagnosis

KW - genic intolerance

KW - rare disease

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Whole-exome sequencing in undiagnosed genetic diseases: Interpreting 119 trios

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