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Differentially expressed genes and canonical pathways in the ascending thoracic aortic aneurysm – The Tampere Vascular Study.

Differentially expressed genes and canonical pathways in the ascending thoracic aortic aneurysm – The Tampere Vascular Study.
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Sulkava M, Raitoharju E, Mennander A, Levula M, Seppälä I, Lyytikäinen LP, Järvinen O, Illig T, Klopp N, Mononen N, Laaksonen R, Kähönen M, Oksala N, Lehtimäki T,


Sulkava M, Raitoharju E, Mennander A, Levula M, Seppälä I, Lyytikäinen LP, Järvinen O, Illig T, Klopp N, Mononen N, Laaksonen R, Kähönen M, Oksala N, Lehtimäki T, (click to view)

Sulkava M, Raitoharju E, Mennander A, Levula M, Seppälä I, Lyytikäinen LP, Järvinen O, Illig T, Klopp N, Mononen N, Laaksonen R, Kähönen M, Oksala N, Lehtimäki T,

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Scientific reports 2017 09 217(1) 12127 doi 10.1038/s41598-017-12421-4
Abstract

Ascending thoracic aortic aneurysm (ATAA) is a multifactorial disease with a strong inflammatory component. Surgery is often required to prevent aortic rupture and dissection. We performed gene expression analysis (Illumina HumanHT-12 version 3 Expression BeadChip) for 32 samples from ATAA (26 without/6 with dissection), and 28 left internal thoracic arteries (controls) collected in Tampere Vascular study. We compared expression profiles and conducted pathway analysis using Ingenuity Pathway Analysis (IPA) to reveal differences between ATAA and a healthy artery wall. Almost 5000 genes were differentially expressed in ATAA samples compared to controls. The most downregulated gene was homeobox (HOX) A5 (fold change, FC = -25.3) and upregulated cadherin-2 (FC = 12.6). Several other HOX genes were also found downregulated (FCs between -25.3 and -1.5, FDR < 0.05). 43, mostly inflammatory, canonical pathways in ATAA were found to be significantly (p < 0.05, FDR < 0.05) differentially expressed. The results remained essentially the same when the 6 dissected ATAA samples were excluded from the analysis. We show for the first time on genome level that ATAA is an inflammatory process, revealing a more detailed molecular pathway level pathogenesis. We propose HOX genes as potentially important players in maintaining aortic integrity, altered expression of which might be important in the pathobiology of ATAA.

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