Abstract
Atrial septal defects (ASDs) are the most common types of cardiac septal defects in congenital heart defects. In addition to traditional therapy, interventional closure has become the main treatment method. However, the molecular events and mechanisms underlying the repair progress by occlusion device remain unknown. In this study, we aimed to characterize differentially expressed genes (DEGs) in the blood of patients treated with occlusion devices (metal or poly-L-lactic acid devices) using RNA-sequencing, and further validated them by qRT-PCR analysis to finally determine the expression of key mediating genes after closure of ASD treatment. The result showed that total 1,045 genes and 1,523 genes were expressed differently with significance in metal and poly-L-lactic acid devices treatment, respectively. The 115 overlap genes from the different sub-analyses are illustrated. The similarities and differences in gene expression reflect that the body response process involved after interventional therapy for ASDs has both different parts that do not overlap and the same part that crosses. The same portion of body response regulatory genes are key regulatory genes expressed in the blood of patients with ASDs treated with closure devices. The gene ontology enrichment analysis showed that biological processes affected in metal device therapy are immune response with CXCR4 genes and poly-L-lactic acid device treatment, and the key pathways are nuclear-transcribed mRNA catabolic process and proteins targeting endoplasmic reticulum process with ribosomal proteins (such as RPS26). We confirmed that CXCR4, TOB1, and DDIT4 gene expression are significantly downregulated toward the pre-therapy level after the post-treatment in both therapy groups by qRT-PCR. Our study suggests that the potential role of CXCR4, DDIT4, and TOB1 may be key regulatory genes in the process of endothelialization in the repair progress of ASDs, providing molecular insights into this progress for future studies.
Highlights
Atrial septal defects (ASDs) are the most common types of congenital heart defects (CHDs) and typically present with left to right shunts, which account for up to 10% and 40% of all CHDs, respectively (Penny and Vick, 2011; Rao and Harris, 2017)
Previous studies showed that the occlusion device is used to provide a temporary scaffold for tissue endothelialization,15 but whether it plays a role in biological processes is unclear
The differentially expressed genes (DEGs) analysis was performed for ASDs cases and healthy control
Summary
Atrial septal defects (ASDs) are the most common types of congenital heart defects (CHDs) and typically present with left to right shunts, which account for up to 10% and 40% of all CHDs, respectively (Penny and Vick, 2011; Rao and Harris, 2017). It is more serious that residual septal defects are frequently associated with surgeryrelated side-effect complications, such as reoperation, infection, sternotomy scarring, and even death (Gaynor et al, 2001; Oses et al, 2010) To avoid those side effects of surgery, interventional closure has been developed to the main treatment to septal defects (Huang et al, 2013; Shimpo et al, 2013; Morray, 2019). The research and development of biodegradable occluders has emerged as a crucial field for interventional treatment of ASDs. the main biological phenomena triggered after treatment with either degradable occluders or metal occluders are the same, including cardiac remodeling phenomena triggered by hemodynamic changes and biological responses induced by occluders. Whether the occlusion device affects ASD repair by regulating the expression of key genes remains unclear
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