Genomic analysis of 11,555 probands identifies 60 dominant congenital heart disease genes

Michael C. Sierant; Sheng Chih Jin; Kaya Bilguvar; Sarah U. Morton; Weilai Dong; Wei Jiang; Ziyu Lu; Boyang Li; Francesc López-Giráldez; Irina Tikhonova; Xue Zeng; Qiongshi Lu; Jungmin Choi; Junhui Zhang; Carol Nelson-Williams; James R. Knight; Hongyu Zhao; Junyue Cao; Shrikant Mane; Stanley C. Sedore; Peter J. Gruber; Monkol Lek; Elizabeth Goldmuntz; John Deanfield; Alessandro Giardini; Seema Mital; Mark Russell; J. William Gaynor; Eileen King; Michael Wagner; Deepak Srivastava; Yufeng Shen; Daniel Bernstein; George A. Porter; Jane W. Newburger; Jonathan G. Seidman; Amy E. Roberts; Mark Yandell; H. Joseph Yost; Martin Tristani-Firouzi; Richard Kim; Wendy K. Chung; Bruce D. Gelb; Christine E. Seidman; Martina Brueckner; Richard P. Lifton

doi:10.1073/pnas.2420343122

Genomic analysis of 11,555 probands identifies 60 dominant congenital heart disease genes

Michael C. Sierant
, Sheng Chih Jin
, Kaya Bilguvar
, Sarah U. Morton
, Weilai Dong
, Wei Jiang
, Ziyu Lu
, Boyang Li
, Francesc López-Giráldez
, Irina Tikhonova
, Xue Zeng
, Qiongshi Lu
, Jungmin Choi
, Junhui Zhang
, Carol Nelson-Williams
, James R. Knight
, Hongyu Zhao
, Junyue Cao
, Shrikant Mane
, Stanley C. Sedore

Peter J. Gruber, Monkol Lek, Elizabeth Goldmuntz, John Deanfield, Alessandro Giardini, Seema Mital, Mark Russell, J. William Gaynor, Eileen King, Michael Wagner, Deepak Srivastava, Yufeng Shen, Daniel Bernstein, George A. Porter, Jane W. Newburger, Jonathan G. Seidman, Amy E. Roberts, Mark Yandell, H. Joseph Yost, Martin Tristani-Firouzi, Richard Kim, Wendy K. Chung, Bruce D. Gelb, Christine E. Seidman, Martina Brueckner, Richard P. Lifton

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

11 Scopus citations

Abstract

Congenital heart disease (CHD) is a leading cause of infant mortality. We analyzed de novo mutations (DNMs) and very rare transmitted/unphased damaging variants in 248 prespecified genes in 11,555 CHD probands. The results identified 60 genes with a significant burden of heterozygous damaging variants. Variants in these genes accounted for CHD in 10.1% of probands with similar contributions from de novo and transmitted variants in parent-offspring trios that showed incomplete penetrance. DNMs in these genes accounted for 58% of the signal from DNMs. Thirty-three genes were linked to a single CHD subtype while 12 genes were associated with 2 to 4 subtypes. Seven genes were only associated with isolated CHD, while 37 were associated with 1 or more extracardiac abnormalities. Genes selectively expressed in the cardiomyocyte lineage were associated with isolated CHD, while those widely expressed in the brain were also associated with neurodevelopmental delay (NDD). Missense variants introducing or removing cysteines in epidermal growth factor (EGF)-like domains of NOTCH1 were enriched in tetralogy of Fallot and conotruncal defects, unlike the broader CHD spectrum seen with loss of function variants. Transmitted damaging missense variants in MYH6 were enriched in multiple CHD phenotypes and account for ~1% of all probands. Probands with characteristic mutations causing syndromic CHD were frequently not diagnosed clinically, often due to missing cardinal phenotypes. CHD genes that were positively or negatively associated with development of NDD suggest clinical value of genetic testing. These findings expand the understanding of CHD genetics and support the use of molecular diagnostics in CHD.

Original language	English
Article number	e2420343122
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	122
Issue number	13
DOIs	https://doi.org/10.1073/pnas.2420343122
State	Published - Apr 1 2025

Keywords

congenital heart disease
exome sequencing
genomics
human genetics
molecular inversion probes

Access to Document

10.1073/pnas.2420343122

Cite this

Sierant, M. C., Jin, S. C., Bilguvar, K., Morton, S. U., Dong, W., Jiang, W., Lu, Z., Li, B., López-Giráldez, F., Tikhonova, I., Zeng, X., Lu, Q., Choi, J., Zhang, J., Nelson-Williams, C., Knight, J. R., Zhao, H., Cao, J., Mane, S., ... Lifton, R. P. (2025). Genomic analysis of 11,555 probands identifies 60 dominant congenital heart disease genes. Proceedings of the National Academy of Sciences of the United States of America, 122(13), Article e2420343122. https://doi.org/10.1073/pnas.2420343122

@article{7058f492a4a344ef9ef766fa04efc89d,

title = "Genomic analysis of 11,555 probands identifies 60 dominant congenital heart disease genes",

abstract = "Congenital heart disease (CHD) is a leading cause of infant mortality. We analyzed de novo mutations (DNMs) and very rare transmitted/unphased damaging variants in 248 prespecified genes in 11,555 CHD probands. The results identified 60 genes with a significant burden of heterozygous damaging variants. Variants in these genes accounted for CHD in 10.1\% of probands with similar contributions from de novo and transmitted variants in parent-offspring trios that showed incomplete penetrance. DNMs in these genes accounted for 58\% of the signal from DNMs. Thirty-three genes were linked to a single CHD subtype while 12 genes were associated with 2 to 4 subtypes. Seven genes were only associated with isolated CHD, while 37 were associated with 1 or more extracardiac abnormalities. Genes selectively expressed in the cardiomyocyte lineage were associated with isolated CHD, while those widely expressed in the brain were also associated with neurodevelopmental delay (NDD). Missense variants introducing or removing cysteines in epidermal growth factor (EGF)-like domains of NOTCH1 were enriched in tetralogy of Fallot and conotruncal defects, unlike the broader CHD spectrum seen with loss of function variants. Transmitted damaging missense variants in MYH6 were enriched in multiple CHD phenotypes and account for \textasciitilde{}1\% of all probands. Probands with characteristic mutations causing syndromic CHD were frequently not diagnosed clinically, often due to missing cardinal phenotypes. CHD genes that were positively or negatively associated with development of NDD suggest clinical value of genetic testing. These findings expand the understanding of CHD genetics and support the use of molecular diagnostics in CHD.",

keywords = "congenital heart disease, exome sequencing, genomics, human genetics, molecular inversion probes",

author = "Sierant, \{Michael C.\} and Jin, \{Sheng Chih\} and Kaya Bilguvar and Morton, \{Sarah U.\} and Weilai Dong and Wei Jiang and Ziyu Lu and Boyang Li and Francesc L{\'o}pez-Gir{\'a}ldez and Irina Tikhonova and Xue Zeng and Qiongshi Lu and Jungmin Choi and Junhui Zhang and Carol Nelson-Williams and Knight, \{James R.\} and Hongyu Zhao and Junyue Cao and Shrikant Mane and Sedore, \{Stanley C.\} and Gruber, \{Peter J.\} and Monkol Lek and Elizabeth Goldmuntz and John Deanfield and Alessandro Giardini and Seema Mital and Mark Russell and Gaynor, \{J. William\} and Eileen King and Michael Wagner and Deepak Srivastava and Yufeng Shen and Daniel Bernstein and Porter, \{George A.\} and Newburger, \{Jane W.\} and Seidman, \{Jonathan G.\} and Roberts, \{Amy E.\} and Mark Yandell and Yost, \{H. Joseph\} and Martin Tristani-Firouzi and Richard Kim and Chung, \{Wendy K.\} and Gelb, \{Bruce D.\} and Seidman, \{Christine E.\} and Martina Brueckner and Lifton, \{Richard P.\}",

note = "Publisher Copyright: {\textcopyright} 2025 the Author(s).",

year = "2025",

month = apr,

day = "1",

doi = "10.1073/pnas.2420343122",

language = "English",

volume = "122",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

number = "13",

}

Sierant, MC, Jin, SC, Bilguvar, K, Morton, SU, Dong, W, Jiang, W, Lu, Z, Li, B, López-Giráldez, F, Tikhonova, I, Zeng, X, Lu, Q, Choi, J, Zhang, J, Nelson-Williams, C, Knight, JR, Zhao, H, Cao, J, Mane, S, Sedore, SC, Gruber, PJ, Lek, M, Goldmuntz, E, Deanfield, J, Giardini, A, Mital, S, Russell, M, Gaynor, JW, King, E, Wagner, M, Srivastava, D, Shen, Y, Bernstein, D, Porter, GA, Newburger, JW, Seidman, JG, Roberts, AE, Yandell, M, Yost, HJ, Tristani-Firouzi, M, Kim, R, Chung, WK, Gelb, BD, Seidman, CE, Brueckner, M & Lifton, RP 2025, 'Genomic analysis of 11,555 probands identifies 60 dominant congenital heart disease genes', Proceedings of the National Academy of Sciences of the United States of America, vol. 122, no. 13, e2420343122. https://doi.org/10.1073/pnas.2420343122

TY - JOUR

T1 - Genomic analysis of 11,555 probands identifies 60 dominant congenital heart disease genes

AU - Sierant, Michael C.

AU - Jin, Sheng Chih

AU - Bilguvar, Kaya

AU - Morton, Sarah U.

AU - Dong, Weilai

AU - Jiang, Wei

AU - Lu, Ziyu

AU - Li, Boyang

AU - López-Giráldez, Francesc

AU - Tikhonova, Irina

AU - Zeng, Xue

AU - Lu, Qiongshi

AU - Choi, Jungmin

AU - Zhang, Junhui

AU - Nelson-Williams, Carol

AU - Knight, James R.

AU - Zhao, Hongyu

AU - Cao, Junyue

AU - Mane, Shrikant

AU - Sedore, Stanley C.

AU - Gruber, Peter J.

AU - Lek, Monkol

AU - Goldmuntz, Elizabeth

AU - Deanfield, John

AU - Giardini, Alessandro

AU - Mital, Seema

AU - Russell, Mark

AU - Gaynor, J. William

AU - King, Eileen

AU - Wagner, Michael

AU - Srivastava, Deepak

AU - Shen, Yufeng

AU - Bernstein, Daniel

AU - Porter, George A.

AU - Newburger, Jane W.

AU - Seidman, Jonathan G.

AU - Roberts, Amy E.

AU - Yandell, Mark

AU - Yost, H. Joseph

AU - Tristani-Firouzi, Martin

AU - Kim, Richard

AU - Chung, Wendy K.

AU - Gelb, Bruce D.

AU - Seidman, Christine E.

AU - Brueckner, Martina

AU - Lifton, Richard P.

PY - 2025/4/1

Y1 - 2025/4/1

N2 - Congenital heart disease (CHD) is a leading cause of infant mortality. We analyzed de novo mutations (DNMs) and very rare transmitted/unphased damaging variants in 248 prespecified genes in 11,555 CHD probands. The results identified 60 genes with a significant burden of heterozygous damaging variants. Variants in these genes accounted for CHD in 10.1% of probands with similar contributions from de novo and transmitted variants in parent-offspring trios that showed incomplete penetrance. DNMs in these genes accounted for 58% of the signal from DNMs. Thirty-three genes were linked to a single CHD subtype while 12 genes were associated with 2 to 4 subtypes. Seven genes were only associated with isolated CHD, while 37 were associated with 1 or more extracardiac abnormalities. Genes selectively expressed in the cardiomyocyte lineage were associated with isolated CHD, while those widely expressed in the brain were also associated with neurodevelopmental delay (NDD). Missense variants introducing or removing cysteines in epidermal growth factor (EGF)-like domains of NOTCH1 were enriched in tetralogy of Fallot and conotruncal defects, unlike the broader CHD spectrum seen with loss of function variants. Transmitted damaging missense variants in MYH6 were enriched in multiple CHD phenotypes and account for ~1% of all probands. Probands with characteristic mutations causing syndromic CHD were frequently not diagnosed clinically, often due to missing cardinal phenotypes. CHD genes that were positively or negatively associated with development of NDD suggest clinical value of genetic testing. These findings expand the understanding of CHD genetics and support the use of molecular diagnostics in CHD.

AB - Congenital heart disease (CHD) is a leading cause of infant mortality. We analyzed de novo mutations (DNMs) and very rare transmitted/unphased damaging variants in 248 prespecified genes in 11,555 CHD probands. The results identified 60 genes with a significant burden of heterozygous damaging variants. Variants in these genes accounted for CHD in 10.1% of probands with similar contributions from de novo and transmitted variants in parent-offspring trios that showed incomplete penetrance. DNMs in these genes accounted for 58% of the signal from DNMs. Thirty-three genes were linked to a single CHD subtype while 12 genes were associated with 2 to 4 subtypes. Seven genes were only associated with isolated CHD, while 37 were associated with 1 or more extracardiac abnormalities. Genes selectively expressed in the cardiomyocyte lineage were associated with isolated CHD, while those widely expressed in the brain were also associated with neurodevelopmental delay (NDD). Missense variants introducing or removing cysteines in epidermal growth factor (EGF)-like domains of NOTCH1 were enriched in tetralogy of Fallot and conotruncal defects, unlike the broader CHD spectrum seen with loss of function variants. Transmitted damaging missense variants in MYH6 were enriched in multiple CHD phenotypes and account for ~1% of all probands. Probands with characteristic mutations causing syndromic CHD were frequently not diagnosed clinically, often due to missing cardinal phenotypes. CHD genes that were positively or negatively associated with development of NDD suggest clinical value of genetic testing. These findings expand the understanding of CHD genetics and support the use of molecular diagnostics in CHD.

KW - congenital heart disease

KW - exome sequencing

KW - genomics

KW - human genetics

KW - molecular inversion probes

UR - https://www.scopus.com/pages/publications/105001999529

U2 - 10.1073/pnas.2420343122

DO - 10.1073/pnas.2420343122

M3 - Article

C2 - 40127276

AN - SCOPUS:105001999529

SN - 0027-8424

VL - 122

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 13

M1 - e2420343122

ER -

Genomic analysis of 11,555 probands identifies 60 dominant congenital heart disease genes

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this