De novo variants in congenital diaphragmatic hernia identify MYRF as a new syndrome and reveal genetic overlaps with other developmental disorders.

Hongjian Qi,Mahmoud Elfiky,Xueya Zhou,Wendy K Chung,Lan Yu,Amy J Wagner,Mauro Longoni,Julia Wynn,Na Zhu,Debbie Nickerson,Yicheng Guo,Haoquan Zhao,Frances A High,George B Mychaliska,Alexander Kitaygorodsky,Jay M Wilson,Rebecca Hernan,Patricia K Donahoe,Yufeng Shen,Brad W Warner,Melissa E Danko,Guðrún Aspelund ,Robert A Cusick ,Michael J Bamshad ,Foong‐Yen Lim ,Kenneth S Azarow ,Dai H Chung ,Douglas A Potoka ,Timothy M Crombleholme

doi:10.1371/journal.pgen.1007822

Abstract

Congenital diaphragmatic hernia (CDH) is a severe birth defect that is often accompanied by other congenital anomalies. Previous exome sequencing studies for CDH have supported a role of de novo damaging variants but did not identify any recurrently mutated genes. To investigate further the genetics of CDH, we analyzed de novo coding variants in 362 proband-parent trios including 271 new trios reported in this study. We identified four unrelated individuals with damaging de novo variants in MYRF (P = 5.3x10-8), including one likely gene-disrupting (LGD) and three deleterious missense (D-mis) variants. Eight additional individuals with de novo LGD or missense variants were identified from our other genetic studies or from the literature. Common phenotypes of MYRF de novo variant carriers include CDH, congenital heart disease and genitourinary abnormalities, suggesting that it represents a novel syndrome. MYRF is a membrane associated transcriptional factor highly expressed in developing diaphragm and is depleted of LGD variants in the general population. All de novo missense variants aggregated in two functional protein domains. Analyzing the transcriptome of patient-derived diaphragm fibroblast cells suggest that disease associated variants abolish the transcription factor activity. Furthermore, we showed that the remaining genes with damaging variants in CDH significantly overlap with genes implicated in other developmental disorders. Gene expression patterns and patient phenotypes support pleiotropic effects of damaging variants in these genes on CDH and other developmental disorders. Finally, functional enrichment analysis implicates the disruption of regulation of gene expression, kinase activities, intra-cellular signaling, and cytoskeleton organization as pathogenic mechanisms in CDH.

Highlights

Congenital diaphragmatic hernia (CDH) is a severe developmental disorder affecting 1 in 3000 live births [1, 2]
We and other have previously shown that de novo variants, those carried by the cases but not inherited from parents, are enriched in sporadic CDH cases consistent with their negative effects on reproductive fitness
To further investigate the genetics of CDH, we analyzed de novo variants in 362 proband-father-mother trios from whole exome or genome sequencing data and identified four patients carrying damaging variants in MYRF, a membrane associated transcription factor that is highly expressed in developing diaphragm and heart

Summary

Introduction

Congenital diaphragmatic hernia (CDH) is a severe developmental disorder affecting 1 in 3000 live births [1, 2]. It is characterized by defects in diaphragm that allow the abdominal. De novo variants in congenital diaphragmatic hernia viscera to move into the thoracic cavity and is associated with pulmonary hypoplasia and in some cases pulmonary hypertension. A better understanding of the causative factors for CDH may inform disease prevention and treatment. The historically low reproductive fitness of individuals with CDH led to the hypothesis that de novo variants with large effect sizes may explain a fraction of CDH patients as in other developmental disorders [14, 15]. No recurrently mutated gene was identified in our genome wide analyses due to the limited sample size

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Discussion

Conclusion