Genetic Architecture of Laterality Defects Revealed by Whole Exome Sequencing

Overview

Journal Eur J Hum Genet

Specialty Genetics

Date 2019 Jan 10

PMID 30622330

Citations 30

Authors

Alexander H Li

Neil A Hanchard

Mahshid Azamian

Lisa C A DAlessandro

Zeynep Coban-Akdemir

Keila N Lopez

Nancy J Hall

Heather Dickerson

Annarita Nicosia

Susan Fernbach

Philip M Boone

Tomaz Gambin

Ender Karaca

Shen Gu

Bo Yuan

Shalini N Jhangiani

Harshavardhan Doddapaneni

Jianhong Hu

Huyen Dinh

Joy Jayaseelan

Donna Muzny

Seema Lalani

Jeffrey Towbin

Daniel Penny

Charles Fraser

James Martin

James R Lupski

Richard A Gibbs

Eric Boerwinkle

Stephanie M Ware

John W Belmont

Affiliations

Soon will be listed here.

Abstract

Aberrant left-right patterning in the developing human embryo can lead to a broad spectrum of congenital malformations. The causes of most laterality defects are not known, with variants in established genes accounting for <20% of cases. We sought to characterize the genetic spectrum of these conditions by performing whole-exome sequencing of 323 unrelated laterality cases. We investigated the role of rare, predicted-damaging variation in 1726 putative laterality candidate genes derived from model organisms, pathway analyses, and human phenotypes. We also evaluated the contribution of homo/hemizygous exon deletions and gene-based burden of rare variation. A total of 28 candidate variants (26 rare predicted-damaging variants and 2 hemizygous deletions) were identified, including variants in genes known to cause heterotaxy and primary ciliary dyskinesia (ACVR2B, NODAL, ZIC3, DNAI1, DNAH5, HYDIN, MMP21), and genes without a human phenotype association, but with prior evidence for a role in embryonic laterality or cardiac development. Sanger validation of the latter variants in probands and their parents revealed no de novo variants, but apparent transmitted heterozygous (ROCK2, ISL1, SMAD2), and hemizygous (RAI2, RIPPLY1) variant patterns. Collectively, these variants account for 7.1% of our study subjects. We also observe evidence for an excess burden of rare, predicted loss-of-function variation in PXDNL and BMS1- two genes relevant to the broader laterality phenotype. These findings highlight potential new genes in the development of laterality defects, and suggest extensive locus heterogeneity and complex genetic models in this class of birth defects.

Citing Articles

Unmasking a Recessive Allele by a Rare Interstitial Deletion at 10q26.13q26.2: Prenatal Diagnosis of MMP21 -Related Disorder and Further Refine INSYN2A Involvement in the Postnatal Cognitive Phenotype.

Su J, Zhang S, Li W, Wei Y, Lin F, Zhou C Mol Genet Genomic Med. 2025; 13(2):e70082.

PMID: 39976347 PMC: 11840842. DOI: 10.1002/mgg3.70082.

Genetic impact of copy number variations on congenital heart defects: Current insights and future directions.

Krishnamurthy N, Krishna D, Sanjana , Rathinasamy J, Kumar A, Francis A Glob Med Genet. 2025; 12(1):100008.

PMID: 39925442 PMC: 11800308. DOI: 10.1016/j.gmg.2024.100008.

Expanding the Molecular Spectrum of Missense Variants: Clinical Insights and Literature Review.

Pasquetti D, Tesolin P, Perino F, Zampieri S, Bobbo M, Caiffa T Genes (Basel). 2025; 16(1).

PMID: 39858609 PMC: 11764533. DOI: 10.3390/genes16010062.

CIROZ is dispensable in ancestral vertebrates but essential for left-right patterning in humans.

Szenker-Ravi E, Ott T, Yusof A, Chopra M, Khatoo M, Pak B Am J Hum Genet. 2025; 112(2):353-373.

PMID: 39753129 PMC: 11866977. DOI: 10.1016/j.ajhg.2024.12.006.

Rare homozygous cilia gene variants identified in consanguineous congenital heart disease patients.

Baird D, Mubeen H, Doganli C, Miltenburg J, Thomsen O, Ali Z Hum Genet. 2024; 143(11):1323-1339.

PMID: 39347817 PMC: 11522069. DOI: 10.1007/s00439-024-02703-z.

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