Notch1 haploinsufficiency causes ascending aortic aneurysms in mice
Sara N. Koenig, Stephanie LaHaye, James D. Feller, Patrick Rowland, Kan N. Hor, Aaron J. Trask, Paul M.L. Janssen, Freddy Radtke, Brenda Lilly, Vidu Garg
Sara N. Koenig, Stephanie LaHaye, James D. Feller, Patrick Rowland, Kan N. Hor, Aaron J. Trask, Paul M.L. Janssen, Freddy Radtke, Brenda Lilly, Vidu Garg
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Research Article Cardiology

Notch1 haploinsufficiency causes ascending aortic aneurysms in mice

Abstract

An ascending aortic aneurysm (AscAA) is a life-threatening disease whose molecular basis is poorly understood. Mutations in NOTCH1 have been linked to bicuspid aortic valve (BAV), which is associated with AscAA. Here, we describe a potentially novel role for Notch1 in AscAA. We found that Notch1 haploinsufficiency exacerbated the aneurysmal aortic root dilation seen in the Marfan syndrome mouse model and that heterozygous deletion of Notch1 in the second heart field (SHF) lineage recapitulated this exacerbated phenotype. Additionally, Notch1+/– mice in a predominantly 129S6 background develop aortic root dilation, indicating that loss of Notch1 is sufficient to cause AscAA. RNA sequencing analysis of the Notch1.129S6+/– aortic root demonstrated gene expression changes consistent with AscAA. These findings are the first to our knowledge to demonstrate an SHF lineage–specific role for Notch1 in AscAA and suggest that genes linked to the development of BAV may also contribute to the associated aortopathy.

Authors

Sara N. Koenig, Stephanie LaHaye, James D. Feller, Patrick Rowland, Kan N. Hor, Aaron J. Trask, Paul M.L. Janssen, Freddy Radtke, Brenda Lilly, Vidu Garg

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Figure 6

Gene expression profiling of Notch1.129S6+/– aortic root consistent with aortopathy.

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Gene expression profiling of Notch1.129S6+/– aortic root consistent with...
(A) Circle plot representing gene annotation and enrichment of the top 10 GO terms. The outer circle scatter plots represent the differential gene expression within each term, with red points representing upregulated genes and blue points representing downregulated genes. The inner circle is colored based on Z score, which is a measure for predicting a bias in gene regulation, with blue predicting a decrease in the pathway and red predicting an increase. Additionally, the inner circle is sized based on P value, with the larger size correlating to a more significant P value. (B) Chord graph representing 18 differentially expressed genes between the Notch1.129S+/– vs. WT proximal aortas and the association of these genes to the corresponding top 8 GO terms. The gene name color code represents the log2 fold change, with blue corresponding to downregulation and red corresponding to upregulation.