Sequencing of a Chinese tetralogy of Fallot cohort reveals clustering mutations in myogenic heart progenitors
Clara Sze Man Tang, Mimmi Mononen, Wai-Yee Lam, Sheng Chih Jin, Xuehan Zhuang, Maria-Mercè Garcia-Barcelo, Qiongfen Lin, Yujia Yang, Makoto Sahara, Elif Eroglu, Kenneth R. Chien, Haifa Hong, Paul Kwong Hang Tam, Peter J. Gruber
Clara Sze Man Tang, Mimmi Mononen, Wai-Yee Lam, Sheng Chih Jin, Xuehan Zhuang, Maria-Mercè Garcia-Barcelo, Qiongfen Lin, Yujia Yang, Makoto Sahara, Elif Eroglu, Kenneth R. Chien, Haifa Hong, Paul Kwong Hang Tam, Peter J. Gruber
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Research Article Cardiology Development

Sequencing of a Chinese tetralogy of Fallot cohort reveals clustering mutations in myogenic heart progenitors

Abstract

Tetralogy of Fallot (TOF) is the most common cyanotic heart defect, yet the underlying genetic mechanisms remain poorly understood. Here, we performed whole-genome sequencing analysis on 146 nonsyndromic TOF parent-offspring trios of Chinese ethnicity. Comparison of de novo variants and recessive genotypes of this data set with data from a European cohort identified both overlapping and potentially novel gene loci and revealed differential functional enrichment between cohorts. To assess the impact of these mutations on early cardiac development, we integrated single-cell and spatial transcriptomics of early human heart development with our genetic findings. We discovered that the candidate gene expression was enriched in the myogenic progenitors of the cardiac outflow tract. Moreover, subsets of the candidate genes were found in specific gene coexpression modules along the cardiomyocyte differentiation trajectory. These integrative functional analyses help dissect the pathogenesis of TOF, revealing cellular hotspots in early heart development resulting in cardiac malformations.

Authors

Clara Sze Man Tang, Mimmi Mononen, Wai-Yee Lam, Sheng Chih Jin, Xuehan Zhuang, Maria-Mercè Garcia-Barcelo, Qiongfen Lin, Yujia Yang, Makoto Sahara, Elif Eroglu, Kenneth R. Chien, Haifa Hong, Paul Kwong Hang Tam, Peter J. Gruber

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Figure 7

The genetic heterogeneity of TOF is reflected in a diversity of genetic modules, signaling pathways, and developmental timing of effect.

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The genetic heterogeneity of TOF is reflected in a diversity of genetic ...
Intersection of human cardiac myocardial cell differentiation single-cell RNA-sequencing data set (top) with the mutational landscape of large cohorts of patients with TOF enabled identification of specific genes and gene modules significantly associated with distinct developmental time points (middle). Some genes such as FLT4 or NOTCH1 identified as having damaging variants in multiple sequencing studies are expressed at multiple developmental time points, whereas others are significantly constrained to either early (e.g., KMT2D) or late (e.g., BMP5) time points. Combining sequencing data with single-cell data sets provides new insight into the developmental mechanisms underlying the pathogenesis of TOF.