Fan Yang1, Lei Zhou2, Qiguang Wang3, Xin You4, Ying Li2, Yong Zhao5, Xiaonan Han6, Zai Chang7, Xin He2, Chunyan Cheng2, Chong Wu1, Wen-Jing Wang1, Fang-Yuan Hu1, Ting Zhao1, Yang Li1, Ming Zhao3, Gu-Yan Zheng1, Jie Dong1, Chun Fan8, Juxian Yang9, Xianmin Meng9, Youyi Zhang10, Xianyang Zhu11, Jingwei Xiong1, Xiao-Li Tian12, Huiqing Cao12. 1. Department of Human Population Genetics, Institute of Molecular Medicine, Peking University, 5 Yiheyuan Rd., Beijing 100871, China. 2. Department of Cardiology, The First Affiliated Hospital of Nanjing Medical University, Nanjing, China. 3. Department of Cardiology, Xijing Hospital, Fourth Military Medical University, Xi'an, China. 4. Department of Laboratory Medicine, The Affiliated Hospital of Yanbian University, Yanji, China. 5. Child Health and Development Institute, Department of Genetics and Genomic Sciences, Mount Sinai School of Medicine, New York, NY, USA. 6. Cincinnati Children's Hospital Medical Center (CCHMC), Cincinnati, OH, USA. 7. School of Life Sciences, Tsinghua University, Beijing, China. 8. Lerner Research Institute, The Cleveland Clinic, Cleveland, OH, USA. 9. Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing, China. 10. Institute of Vascular Medicine, Peking University Third Hospital and Key Laboratory of Molecular Cardiovascular Sciences, Ministry of Education, Beijing, China. 11. Department of Congenital Heart Disease, General Hospital of Shenyang Military Area Command, Shenyang, China. 12. Department of Human Population Genetics, Institute of Molecular Medicine, Peking University, 5 Yiheyuan Rd., Beijing 100871, China tianxiaoli@pku.edu.cn caohuiqing@pku.edu.cn.
Abstract
AIMS: Cardiac structural genes have been implicated as causative factors for congenital heart diseases (CHDs). NEXN is an F-actin binding protein and previously identified as a disease gene causing cardiomyopathies. Whether NEXN contributes to CHDs aetiologically remains unknown. Here, we explored the function of NEXN in cardiac development. METHODS AND RESULTS: First, we determine the role of NEXN in cardiac differentiation using mouse P19cl6 in vitro model; we demonstrated that NEXN inhibited cardiac contractile markers, serving as a negative regulator. Interestingly, we found this effect was mediated by GATA4, a crucial transcription factor that controls cardiac development by knockdown, overexpression, and rescue experiment, respectively. We then generated transgenic mouse models and surprisingly, we discovered cardiac-selective expression of the NEXN gene caused atrial septal defects (ASDs). Next, to search for the mutations in NEXN gene in patients suffering from ASDs, we sequenced the exon and exon-intron joint regions of the NEXN gene in 150 probands with isolated ASDs and identified three mutations in the conserved region of NEXN (c.-52-78C>A, K199E, and L227S), which were not found in 500 healthy controls. Finally, we characterize the related mechanisms and found all mutations inhibited GATA4 expression. CONCLUSION: We identify NEXN as a novel gene for ASD and its function to inhibit GATA4 established a critical regulation of an F-actin binding protein on a transcription factor in cardiac development. Published on behalf of the European Society of Cardiology. All rights reserved.
AIMS: Cardiac structural genes have been implicated as causative factors for congenital heart diseases (CHDs). NEXN is an F-actin binding protein and previously identified as a disease gene causing cardiomyopathies. Whether NEXN contributes to CHDs aetiologically remains unknown. Here, we explored the function of NEXN in cardiac development. METHODS AND RESULTS: First, we determine the role of NEXN in cardiac differentiation using mouse P19cl6 in vitro model; we demonstrated that NEXN inhibited cardiac contractile markers, serving as a negative regulator. Interestingly, we found this effect was mediated by GATA4, a crucial transcription factor that controls cardiac development by knockdown, overexpression, and rescue experiment, respectively. We then generated transgenic mouse models and surprisingly, we discovered cardiac-selective expression of the NEXN gene caused atrial septal defects (ASDs). Next, to search for the mutations in NEXN gene in patients suffering from ASDs, we sequenced the exon and exon-intron joint regions of the NEXN gene in 150 probands with isolated ASDs and identified three mutations in the conserved region of NEXN (c.-52-78C>A, K199E, and L227S), which were not found in 500 healthy controls. Finally, we characterize the related mechanisms and found all mutations inhibited GATA4 expression. CONCLUSION: We identify NEXN as a novel gene for ASD and its function to inhibit GATA4 established a critical regulation of an F-actin binding protein on a transcription factor in cardiac development. Published on behalf of the European Society of Cardiology. All rights reserved.
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