PUBLICATION
De novo disruptive heterozygous MMP21 variants are potential predisposing genetic risk factors in Chinese Han heterotaxy children
- Authors
- Qin, X.J., Xu, M.M., Ye, J.J., Niu, Y.W., Wu, Y.R., Xu, R., Li, F., Fu, Q.H., Chen, S., Sun, K., Xu, Y.J.
- ID
- ZDB-PUB-220921-21
- Date
- 2022
- Source
- Human genomics 16: 41 (Journal)
- Registered Authors
- Keywords
- Congenital heart disease, Exome sequencing, Heterotaxy syndrome, MMP21, Zebrafish
- MeSH Terms
-
- Animals
- Child
- China
- Heterotaxy Syndrome*/genetics
- Humans
- Morpholinos
- RNA, Messenger
- Risk Factors
- Zebrafish/genetics
- PubMed
- 36123719 Full text @ Hum. Genomics
Citation
Qin, X.J., Xu, M.M., Ye, J.J., Niu, Y.W., Wu, Y.R., Xu, R., Li, F., Fu, Q.H., Chen, S., Sun, K., Xu, Y.J. (2022) De novo disruptive heterozygous MMP21 variants are potential predisposing genetic risk factors in Chinese Han heterotaxy children. Human genomics. 16:41.
Abstract
Background Heterotaxy syndrome (HTX) is caused by aberrant left-right patterning early in embryonic development, which results in abnormal positioning and morphology of the thoracic and abdominal organs. Currently, genetic testing discerns the underlying genetic cause in less than 20% of sporadic HTX cases, indicating that genetic pathogenesis remains poorly understood. In this study, we aim to garner a deeper understanding of the genetic factors of this disease by documenting the effect of different matrix metalloproteinase 21 (MMP21) variants on disease occurrence and pathogenesis.
Methods Eighty-one HTX patients with complex congenital heart defects and 89 healthy children were enrolled, and we investigated the pathogenetic variants related to patients with HTX by exome sequencing. Zebrafish splice-blocking Morpholino oligo-mediated transient suppression assays were performed to confirm the potential pathogenicity of missense variants found in these patients with HTX.
Results Three MMP21 heterozygous non-synonymous variants (c.731G > A (p.G244E), c.829C > T (p.L277F), and c.1459A > G (p.K487E)) were identified in three unrelated Chinese Han patients with HTX and complex congenital heart defects. Sanger sequencing confirmed that all variants were de novo. Cell transfection assay showed that none of the variants affect mRNA and protein expression levels of MMP21. Knockdown expression of mmp21 by splice-blocking Morpholino oligo in zebrafish embryos revealed a heart looping disorder, and mutant human MMP21 mRNA (c.731G > A, c.1459A > G, heterozygous mRNA (wild-type&c.731G > A), as well as heterozygous mRNA (wild-type& c.1459A > G) could not effectively rescue the heart looping defects. A patient with the MMP21 p.G244E variant was identified with other potential HTX-causing missense mutations, whereas the patient with the MMP21 p.K487E variant had no genetic mutations in other causative genes related to HTX.
Conclusion Our study highlights the role of the disruptive heterozygous MMP21 variant (p.K487E) in the etiology of HTX with complex cardiac malformations and expands the current mutation spectrum of MMP21 in HTX.
Genes / Markers
Expression
Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Orthology
Engineered Foreign Genes
Mapping