Somatic mutations in cerebral cortical malformations

Saumya S. Jamuar; Anh Thu N. Lam; Martin Kircher; Alissa M. D'Gama; Jian Wang; Brenda J. Barry; Xiaochang Zhang; Robert Sean Hill; Jennifer N. Partlow; Aldo Rozzo; Sarah Servattalab; Bhaven K. Mehta; Meral Topcu; Dina Amrom; Eva Andermann; Bernard Dan; Elena Parrini; Renzo Guerrini; Ingrid E. Scheffer; Samuel F. Berkovic; Richard J. Leventer; Yiping Shen; Bai Lin Wu; A. James Barkovich; Mustafa Sahin; Bernard S. Chang; Michael Bamshad; Deborah A. Nickerson; Jay Shendure; Annapurna Poduri; Timothy W. Yu; Christopher A. Walsh

doi:10.1056/NEJMoa1314432

Somatic mutations in cerebral cortical malformations

Saumya S. Jamuar, Anh Thu N. Lam, Martin Kircher, Alissa M. D'Gama, Jian Wang, Brenda J. Barry, Xiaochang Zhang, Robert Sean Hill, Jennifer N. Partlow, Aldo Rozzo, Sarah Servattalab, Bhaven K. Mehta, Meral Topcu, Dina Amrom, Eva Andermann, Bernard Dan, Elena Parrini, Renzo Guerrini, Ingrid E. Scheffer, Samuel F. BerkovicRichard J. Leventer, Yiping Shen, Bai Lin Wu, A. James Barkovich, Mustafa Sahin, Bernard S. Chang, Michael Bamshad, Deborah A. Nickerson, Jay Shendure, Annapurna Poduri, Timothy W. Yu, Christopher A. Walsh^*

^*Corresponding author for this work

Institute of Human Genetics

Abstract

BACKGROUND: Although there is increasing recognition of the role of somatic mutations in genetic disorders, the prevalence of somatic mutations in neurodevelopmental disease and the optimal techniques to detect somatic mosaicism have not been systematically evaluated. METHODS: Using a customized panel of known and candidate genes associated with brain malformations, we applied targeted high-coverage sequencing (depth, ≥200x) to leukocytederived DNA samples from 158 persons with brain malformations, including the double-cortex syndrome (subcortical band heterotopia, 30 persons), polymicrogyria with megalencephaly (20), periventricular nodular heterotopia (61), and pachygyria (47). We validated candidate mutations with the use of Sanger sequencing and, for variants present at unequal read depths, subcloning followed by colony sequencing. RESULTS: Validated, causal mutations were found in 27 persons (17%; range, 10 to 30% for each phenotype). Mutations were somatic in 8 of the 27 (30%), predominantly in persons with the double-cortex syndrome (in whom we found mutations in DCX and LIS1), persons with periventricular nodular heterotopia (FLNA), and persons with pachygyria (TUBB2B). Of the somatic mutations we detected, 5 (63%) were undetectable with the use of traditional Sanger sequencing but were validated through subcloning and subsequent sequencing of the subcloned DNA. We found potentially causal mutations in the candidate genes DYNC1H1, KIF5C, and other kinesin genes in persons with pachygyria. CONCLUSIONS: Targeted sequencing was found to be useful for detecting somatic mutations in patients with brain malformations. High-coverage sequencing panels provide an important complement to whole-exome and whole-genome sequencing in the evaluation of somatic mutations in neuropsychiatric disease.

Original language	English
Journal	New England Journal of Medicine
Volume	371
Issue number	8
Pages (from-to)	733-743
Number of pages	11
ISSN	0028-4793
DOIs	https://doi.org/10.1056/NEJMoa1314432
Publication status	Published - 2014

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Jamuar, S. S., Lam, A. T. N., Kircher, M., D'Gama, A. M., Wang, J., Barry, B. J., Zhang, X., Hill, R. S., Partlow, J. N., Rozzo, A., Servattalab, S., Mehta, B. K., Topcu, M., Amrom, D., Andermann, E., Dan, B., Parrini, E., Guerrini, R., Scheffer, I. E., ... Walsh, C. A. (2014). Somatic mutations in cerebral cortical malformations. New England Journal of Medicine, 371(8), 733-743. https://doi.org/10.1056/NEJMoa1314432

@article{c8118aa0db8149fb90c28d8b3c8f6e21,

title = "Somatic mutations in cerebral cortical malformations",

abstract = "BACKGROUND: Although there is increasing recognition of the role of somatic mutations in genetic disorders, the prevalence of somatic mutations in neurodevelopmental disease and the optimal techniques to detect somatic mosaicism have not been systematically evaluated. METHODS: Using a customized panel of known and candidate genes associated with brain malformations, we applied targeted high-coverage sequencing (depth, ≥200x) to leukocytederived DNA samples from 158 persons with brain malformations, including the double-cortex syndrome (subcortical band heterotopia, 30 persons), polymicrogyria with megalencephaly (20), periventricular nodular heterotopia (61), and pachygyria (47). We validated candidate mutations with the use of Sanger sequencing and, for variants present at unequal read depths, subcloning followed by colony sequencing. RESULTS: Validated, causal mutations were found in 27 persons (17%; range, 10 to 30% for each phenotype). Mutations were somatic in 8 of the 27 (30%), predominantly in persons with the double-cortex syndrome (in whom we found mutations in DCX and LIS1), persons with periventricular nodular heterotopia (FLNA), and persons with pachygyria (TUBB2B). Of the somatic mutations we detected, 5 (63%) were undetectable with the use of traditional Sanger sequencing but were validated through subcloning and subsequent sequencing of the subcloned DNA. We found potentially causal mutations in the candidate genes DYNC1H1, KIF5C, and other kinesin genes in persons with pachygyria. CONCLUSIONS: Targeted sequencing was found to be useful for detecting somatic mutations in patients with brain malformations. High-coverage sequencing panels provide an important complement to whole-exome and whole-genome sequencing in the evaluation of somatic mutations in neuropsychiatric disease.",

author = "Jamuar, {Saumya S.} and Lam, {Anh Thu N.} and Martin Kircher and D'Gama, {Alissa M.} and Jian Wang and Barry, {Brenda J.} and Xiaochang Zhang and Hill, {Robert Sean} and Partlow, {Jennifer N.} and Aldo Rozzo and Sarah Servattalab and Mehta, {Bhaven K.} and Meral Topcu and Dina Amrom and Eva Andermann and Bernard Dan and Elena Parrini and Renzo Guerrini and Scheffer, {Ingrid E.} and Berkovic, {Samuel F.} and Leventer, {Richard J.} and Yiping Shen and Wu, {Bai Lin} and Barkovich, {A. James} and Mustafa Sahin and Chang, {Bernard S.} and Michael Bamshad and Nickerson, {Deborah A.} and Jay Shendure and Annapurna Poduri and Yu, {Timothy W.} and Walsh, {Christopher A.}",

year = "2014",

doi = "10.1056/NEJMoa1314432",

language = "English",

volume = "371",

pages = "733--743",

journal = "New England Journal of Medicine",

issn = "0028-4793",

number = "8",

}

Jamuar, SS, Lam, ATN, Kircher, M, D'Gama, AM, Wang, J, Barry, BJ, Zhang, X, Hill, RS, Partlow, JN, Rozzo, A, Servattalab, S, Mehta, BK, Topcu, M, Amrom, D, Andermann, E, Dan, B, Parrini, E, Guerrini, R, Scheffer, IE, Berkovic, SF, Leventer, RJ, Shen, Y, Wu, BL, Barkovich, AJ, Sahin, M, Chang, BS, Bamshad, M, Nickerson, DA, Shendure, J, Poduri, A, Yu, TW & Walsh, CA 2014, 'Somatic mutations in cerebral cortical malformations', New England Journal of Medicine, vol. 371, no. 8, pp. 733-743. https://doi.org/10.1056/NEJMoa1314432

TY - JOUR

T1 - Somatic mutations in cerebral cortical malformations

AU - Jamuar, Saumya S.

AU - Lam, Anh Thu N.

AU - Kircher, Martin

AU - D'Gama, Alissa M.

AU - Wang, Jian

AU - Barry, Brenda J.

AU - Zhang, Xiaochang

AU - Hill, Robert Sean

AU - Partlow, Jennifer N.

AU - Rozzo, Aldo

AU - Servattalab, Sarah

AU - Mehta, Bhaven K.

AU - Topcu, Meral

AU - Amrom, Dina

AU - Andermann, Eva

AU - Dan, Bernard

AU - Parrini, Elena

AU - Guerrini, Renzo

AU - Scheffer, Ingrid E.

AU - Berkovic, Samuel F.

AU - Leventer, Richard J.

AU - Shen, Yiping

AU - Wu, Bai Lin

AU - Barkovich, A. James

AU - Sahin, Mustafa

AU - Chang, Bernard S.

AU - Bamshad, Michael

AU - Nickerson, Deborah A.

AU - Shendure, Jay

AU - Poduri, Annapurna

AU - Yu, Timothy W.

AU - Walsh, Christopher A.

PY - 2014

Y1 - 2014

N2 - BACKGROUND: Although there is increasing recognition of the role of somatic mutations in genetic disorders, the prevalence of somatic mutations in neurodevelopmental disease and the optimal techniques to detect somatic mosaicism have not been systematically evaluated. METHODS: Using a customized panel of known and candidate genes associated with brain malformations, we applied targeted high-coverage sequencing (depth, ≥200x) to leukocytederived DNA samples from 158 persons with brain malformations, including the double-cortex syndrome (subcortical band heterotopia, 30 persons), polymicrogyria with megalencephaly (20), periventricular nodular heterotopia (61), and pachygyria (47). We validated candidate mutations with the use of Sanger sequencing and, for variants present at unequal read depths, subcloning followed by colony sequencing. RESULTS: Validated, causal mutations were found in 27 persons (17%; range, 10 to 30% for each phenotype). Mutations were somatic in 8 of the 27 (30%), predominantly in persons with the double-cortex syndrome (in whom we found mutations in DCX and LIS1), persons with periventricular nodular heterotopia (FLNA), and persons with pachygyria (TUBB2B). Of the somatic mutations we detected, 5 (63%) were undetectable with the use of traditional Sanger sequencing but were validated through subcloning and subsequent sequencing of the subcloned DNA. We found potentially causal mutations in the candidate genes DYNC1H1, KIF5C, and other kinesin genes in persons with pachygyria. CONCLUSIONS: Targeted sequencing was found to be useful for detecting somatic mutations in patients with brain malformations. High-coverage sequencing panels provide an important complement to whole-exome and whole-genome sequencing in the evaluation of somatic mutations in neuropsychiatric disease.

AB - BACKGROUND: Although there is increasing recognition of the role of somatic mutations in genetic disorders, the prevalence of somatic mutations in neurodevelopmental disease and the optimal techniques to detect somatic mosaicism have not been systematically evaluated. METHODS: Using a customized panel of known and candidate genes associated with brain malformations, we applied targeted high-coverage sequencing (depth, ≥200x) to leukocytederived DNA samples from 158 persons with brain malformations, including the double-cortex syndrome (subcortical band heterotopia, 30 persons), polymicrogyria with megalencephaly (20), periventricular nodular heterotopia (61), and pachygyria (47). We validated candidate mutations with the use of Sanger sequencing and, for variants present at unequal read depths, subcloning followed by colony sequencing. RESULTS: Validated, causal mutations were found in 27 persons (17%; range, 10 to 30% for each phenotype). Mutations were somatic in 8 of the 27 (30%), predominantly in persons with the double-cortex syndrome (in whom we found mutations in DCX and LIS1), persons with periventricular nodular heterotopia (FLNA), and persons with pachygyria (TUBB2B). Of the somatic mutations we detected, 5 (63%) were undetectable with the use of traditional Sanger sequencing but were validated through subcloning and subsequent sequencing of the subcloned DNA. We found potentially causal mutations in the candidate genes DYNC1H1, KIF5C, and other kinesin genes in persons with pachygyria. CONCLUSIONS: Targeted sequencing was found to be useful for detecting somatic mutations in patients with brain malformations. High-coverage sequencing panels provide an important complement to whole-exome and whole-genome sequencing in the evaluation of somatic mutations in neuropsychiatric disease.

UR - http://www.scopus.com/inward/record.url?scp=84907313347&partnerID=8YFLogxK

U2 - 10.1056/NEJMoa1314432

DO - 10.1056/NEJMoa1314432

M3 - Journal articles

C2 - 25140959

AN - SCOPUS:84907313347

SN - 0028-4793

VL - 371

SP - 733

EP - 743

JO - New England Journal of Medicine

JF - New England Journal of Medicine

IS - 8

ER -

Somatic mutations in cerebral cortical malformations

Abstract

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