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Sympathetic hyperinnervation drives abdominal aortic aneurysm development by promoting vascular smooth muscle cell phenotypic switching

Zhenquan Tang, Jingfang Xie, Ming Jin, Guoquan Wei, Ziwei Fu, Xiajing Luo, Chuling Li, Xiaoqian Jia, Hao Zheng, Lintao Zhong, Xinzhong Li, Junfen Wang, Guojun Chen, Yanmei Chen, Wangjun Liao, Yulin Liao, Jianping Bin, Senlin Huang

2024Journal of Advanced Research11 citationsDOIOpen Access PDF

Abstract

Sympathetic hyperinnervation plays an important role in modulating the vascular smooth muscle cell (VSMC) phenotype and vascular diseases, but its role in abdominal aortic aneurysm (AAA) is still unknown. This study aimed to investigate the role of sympathetic hyperinnervation in promoting AAA development and the underlying mechanism involved. Western blotting and immunochemical staining were used to detect sympathetic hyperinnervation. We performed sympathetic denervation through coeliac ganglionectomy (CGX) and 6-OHDA administration to understand the role of sympathetic hyperinnervation in AAA and investigated the underlying mechanisms through transcriptome and functional studies. Sema4D knockout (Sema4D-/-) mice were utilized to determine the involvement of Sema4D in inducing sympathetic hyperinnervation and AAA development. We observed sympathetic hyperinnervation, the most important form of sympathetic neural remodeling, in both mouse AAA models and AAA patients. Elimination of sympathetic hyperinnervation by CGX or 6-OHDA significantly inhibited AAA development and progression. We further revealed that sympathetic hyperinnervation promoted VSMC phenotypic switching in AAA by releasing extracellular ATP (eATP) and activating eATP-P2rx4-p38 signaling. Moreover, single-cell RNA sequencing revealed that Sema4D secreted by osteoclast-like cells induces sympathetic nerve diffusion and hyperinnervation through binding to Plxnb1. We consistently observed that AAA progression was significantly ameliorated in Sema4D-deficient mice. Sympathetic hyperinnervation driven by osteoclast-like cell-derived Sema4D promotes VSMC phenotypic switching and accelerates pathological aneurysm progression by activating the eATP/P2rx4/p38 pathway. Inhibition of sympathetic hyperinnervation emerges as a potential novel therapeutic strategy for preventing and treating AAA.

Topics & Concepts

Abdominal aortic aneurysmCardiologyVascular smooth muscleInternal medicineMedicineAortic aneurysmPhenotypeAneurysmSmooth muscleRadiologyAortaBiologyGeneBiochemistryAortic aneurysm repair treatmentsWilliams Syndrome ResearchNitric Oxide and Endothelin Effects