News Release

Researchers identify gene linked to congenital heart disease

Researchers have identified a gene that plays a minor role in congenital heart disease, using a combined approach that could aid studies of this and other multigenic diseases

Peer-Reviewed Publication

eLife

New insight on the link between a gene called SORBS2 and congenital heart disease has been published today in eLife, with findings that may help explain the cause of the disease in some patients.

Some people with congenital heart disease are missing part of the long arm of chromosome 4, otherwise known as chromosome 4q. Chromosomes are thread-like structures made up of DNA. When part of the chromosome is missing, it means that some of the genes located on that section are also lost. Previous studies have linked heart defects related to chromosome 4q deletion syndrome to a missing copy of the HAND2 gene that is found in chromosome 4 and is important for heart development. But not every patient with a heart defect is missing HAND2, which suggests other genes are likely involved as well.

"A previous study of one patient with congenital heart disease suggested mutations in a gene called SORBS2 might be responsible, but this finding had yet to be confirmed," explains first author Fei Liang, a physician at the Neonatal Intensive Care Unit, Shanghai Children's Medical Center, China.

To explore the potential role of SORBS2 in congenital heart disease, Liang and colleagues suppressed the gene in developing human heart cells grown in the laboratory. This led to the development of abnormally shaped heart cells and interfered with the ability of cardiac muscle cells to undergo necessary changes in gene expression.

The team's additional studies in genetically engineered mice showed that a lack of SORBS2 led to the absence or duplication of the wall between the two upper chambers of the heart in 40% of embryos. This duplication is a condition known as double atrial septum. However, the effect was much milder in comparison to human heart defects, suggesting that SORBS2 may be a 'small effect size' congenital heart disease gene - that is to say, it plays a minor role in the disease.

The team further examined how a lack of SORBS2 can affect gene expression in both mice and human cells. Their results highlighted how the levels of other genes and proteins are elevated or reduced in response to the lack of SORBS2, ultimately leading to heart defects and damage.

Finally, they found that rare, damaging variants of the SORBS2 gene were significantly enriched in 300 congenital heart disease cases where gross chromosomal aberrations did not occur. This provides additional genetic evidence that SORBS2 variants have a role in causing general congenital heart disease.

"Our combined studies help explain the cause of congenital heart disease in chromosome 4q deletion syndrome patients who still have the functional HAND2 gene," concludes senior author Zhen Zhang, a professor at Shanghai Pediatric Congenital Heart Disease Institute and Pediatric Translational Medicine Institute, Shanghai Children's Medical Center. "They provide an effective approach for identifying other genes that play a minor role in congenital heart disease and other multigenic diseases. Interestingly, we found that SORBS2 deficiency can cause double atrial septum, a very rare cardiac anomaly linked to a condition called paradoxical thromboembolism. The exact causes of this anomaly are currently unknown, and we hope our study paves the way for exploring this further."

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Emily Packer, Media Relations Manager
eLife
e.packer@elifesciences.org
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About eLife

eLife is a non-profit organisation created by funders and led by researchers. Our mission is to accelerate discovery by operating a platform for research communication that encourages and recognises the most responsible behaviours. We aim to publish work of the highest standards and importance in all areas of biology and medicine, including Developmental Biology, while exploring creative new ways to improve how research is assessed and published. eLife receives financial support and strategic guidance from the Howard Hughes Medical Institute, the Knut and Alice Wallenberg Foundation, the Max Planck Society and Wellcome. Learn more at https://elifesciences.org/about.

To read the latest Developmental Biology research published in eLife, visit https://elifesciences.org/subjects/developmental-biology.

Full list of funders:

Science and Technology Commission of Shanghai Municipality, Collaborative Innovation Program of Shanghai Municipal Health Commission, National Natural Science Foundation of China, Shanghai Municipal Education Commission-Gaofeng Clinical Medicine Grant Support, Shanghai Sailing Program, Innovative Research Team of High-level Local Universities in Shanghai, Science and Technology Commission of Shanghai Municipality

Full list of grant numbers:

20JC1418500, 2020CXJQ01, 81371893, 31371465, 20171925, 18YF1414800, SSMU-ZDCX20180200, 20DZ2260900, 81741031, 81871717, 81672090, 31771612


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