Abstract 284: Pro-Inflammatory Adventitial Fibroblast Contribute To Aortic Aneurysms In Loeys Dietz Syndrome

Abstract

Introduction: Vascular smooth muscle cell (SMC) phenotype modulation is implicated in thoracic aneurysm formation, however, the role of adventitial fibroblasts (AdvFib) in aneurysm formation remains poorly characterized. Loeys-Dietz Syndrome (LDS), caused by a spectrum of mutations in the TGF-β signaling cascade, leads to aggressive thoracic aneurysms. Given the ubiquitous nature of TGF-β signaling machinery, the exact cell type(s) responsible for initiation of LDS pathogenesis is poorly understood. Methods: We performed single cell transcriptomic characterization of aortic root and ascending aortic samples from LDS patients ((n=6 LDS (harboring TGFB2 , TGFBR1 , TGFBR2 , or SMAD3 mutation); n=2 Donor control)) as well as root/ascending aorta from a murine model of LDS ( Tgfbr2 G357W/+ ) to understand cell-state transitions and transcriptomic alterations in LDS. Results: Single cell RNA sequencing (scRNAseq) of human and mice LDS samples (in total >40,000 cells) revealed a secondary pattern of cellular activation in LDS as compared to Marfan Syndrome. Instead of SMC phenotypic modulation as seen in MFS, LDS appears to preferentially modulate adventitial fibroblasts (AdvFib) phenotype in the Tgfbr2 G357W/+ mouse model. Human LDS patient’s AdvFib turn on high levels of macrophage-recruiting pro-inflammatory cytokines CCL2 and HLA-B, with a corresponding 1.8-fold increase in LDS aortic wall macrophages compared to Donor. A more extreme pattern was observed in the Tgfbr2 G357W/+ LDS mouse model. While Tgfbr2 G357W/+ SMC are transcriptomically similar to wild type counterparts, AdvFib were activated into a pro-inflammatory state associated with increased aortic macrophage recruitment ( Ccl2 , Il6 , Vcam1, and Cxcl2 ) and fibrotic response ( Col1a1 , Col1a2 , Col3a1, and Fn1 ). A 6-fold increase in the number of aortic wall macrophages was identified in Tgfbr2 G357W/+ compared to WT. Conclusions: LDS mouse and human AdvFib undergo phenotypic alterations into a pro-inflammatory state evidenced by increased expression of numerous cytokines, macrophage recruitment, and ECM deposition. AdvFib, in addition to SMCs, are potentially another important pathological cell population in LDS aneurysm formation.