L-Wnk1 Deletion in Smooth Muscle Cells Causes Aortitis and Inflammatory Shift.

IF 16.5 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Circulation research Pub Date : 2024-08-02 Epub Date: 2024-07-09 DOI:10.1161/CIRCRESAHA.124.324366

Helene Quelquejay, Rida Al-Rifai, Michele Silvestro, Marie Vandestienne, Irmine Ferreira, Tristan Mirault, Daniel Henrion, Xiaodan Zhong, Icia Santos-Zas, Guillaume Goudot, Paul Alayrac, Estelle Robidel, Gwennhael Autret, Daniel Balvay, Soraya Taleb, Alain Tedgui, Chantal M Boulanger, Alma Zernecke, Antoine-Emmanuel Saliba, Juliette Hadchouel, Bhama Ramkhelawon, Clement Cochain, Sonia Bergaya, Xavier Jeunemaitre, Hafid Ait-Oufella

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Abstract

Background: The long isoform of the Wnk1 (with-no-lysine [K] kinase 1) is a ubiquitous serine/threonine kinase, but its role in vascular smooth muscle cells (VSMCs) pathophysiology remains unknown.

Methods: AngII (angiotensin II) was infused in Apoe^-/- to induce experimental aortic aneurysm. Mice carrying an Sm22-Cre allele were cross-bred with mice carrying a floxed Wnk1 allele to specifically investigate the functional role of Wnk1 in VSMCs.

Results: Single-cell RNA-sequencing of the aneurysmal abdominal aorta from AngII-infused Apoe^-/- mice revealed that VSMCs that did not express Wnk1 showed lower expression of contractile phenotype markers and increased inflammatory activity. Interestingly, WNK1 gene expression in VSMCs was decreased in human abdominal aortic aneurysm. Wnk1-deficient VSMCs lost their contractile function and exhibited a proinflammatory phenotype, characterized by the production of matrix metalloproteases, as well as cytokines and chemokines, which contributed to local accumulation of inflammatory macrophages, Ly6C^hi monocytes, and γδ T cells. Sm22Cre+Wnk1^lox/lox mice spontaneously developed aortitis in the infrarenal abdominal aorta, which extended to the thoracic area over time without any negative effect on long-term survival. AngII infusion in Sm22Cre+Wnk1^lox/lox mice aggravated the aortic disease, with the formation of lethal abdominal aortic aneurysms. Pharmacological blockade of γδ T-cell recruitment using neutralizing anti-CXCL9 (anti-CXC motif chemokine ligand 9) antibody treatment, or of monocyte/macrophage using Ki20227, a selective inhibitor of CSF1 receptor, attenuated aortitis. Wnk1 deletion in VSMCs led to aortic wall remodeling with destruction of elastin layers, increased collagen content, and enhanced local TGF-β (transforming growth factor-beta) 1 expression. Finally, in vivo TGF-β blockade using neutralizing anti-TGF-β antibody promoted saccular aneurysm formation and aorta rupture in Sm22 Cre+ Wnk1^lox/lox mice but not in control animals.

Conclusion: Wnk1 is a key regulator of VSMC function. Wnk1 deletion promotes VSMC phenotype switch toward a pathogenic proinflammatory phenotype, orchestrating deleterious vascular remodeling and spontaneous severe aortitis in mice.

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平滑肌细胞中的 L-Wnk1 基因缺失会导致主动脉炎和炎性转变

背景：Wnk1（with-no-lysine [K] kinase 1）的长异构体是一种无处不在的丝氨酸/苏氨酸激酶，但它在血管平滑肌细胞（VSMC）病理生理学中的作用仍然未知：方法：向载脂蛋白-/-小鼠注射血管紧张素 II（AngII），诱发实验性主动脉瘤。将携带 Sm22-Cre 等位基因的小鼠与携带浮性 Wnk1 等位基因的小鼠杂交，以专门研究 Wnk1 在 VSMCs 中的功能作用：结果：对注入 AngII 的载脂蛋白小鼠腹主动脉动脉瘤进行单细胞 RNA 测序发现，不表达 Wnk1 的 VSMC 表现出较低的收缩表型标志物表达量和较高的炎症活性。有趣的是，在人类腹主动脉瘤中，VSMCs 中的 WNK1 基因表达减少。Wnk1 缺陷的 VSMC 失去了收缩功能，并表现出一种促炎表型，其特征是产生基质金属蛋白酶以及细胞因子和趋化因子，从而导致炎性巨噬细胞、Ly6Chi 单核细胞和 γδ T 细胞在局部聚集。Sm22Cre+Wnk1lox/lox 小鼠腹主动脉下段自发出现主动脉炎，并随着时间的推移扩展到胸部，但对长期存活没有任何负面影响。给Sm22Cre+Wnk1lox/lox小鼠输注AngII会加重主动脉疾病，形成致命的腹主动脉瘤。使用中和抗 CXCL9 抗体治疗药物阻断γδ T 细胞募集，或使用 CSF1 受体选择性抑制剂 Ki20227 阻止单核细胞/巨噬细胞募集，可减轻主动脉炎。VSMC 中 Wnk1 的缺失导致主动脉壁重塑，弹性层被破坏，胶原蛋白含量增加，局部 TGF-β（转化生长因子-β）1 表达增强。最后，使用中和抗 TGF-β 抗体阻断体内 TGF-β 可促进 Sm22 Cre+ Wnk1lox/lox 小鼠体内囊状动脉瘤的形成和主动脉破裂，而对照组动物则无此作用：结论：Wnk1是VSMC功能的关键调节因子。结论：Wnk1 是 VSMC 功能的关键调控因子，缺失 Wnk1 会促进 VSMC 表型向致病性促炎表型转换，导致有害的血管重塑和小鼠自发性严重主动脉炎。

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来源期刊

Circulation research 医学-外周血管病

CiteScore

29.60

自引率

2.00%

发文量

535

审稿时长

3-6 weeks

期刊介绍： Circulation Research is a peer-reviewed journal that serves as a forum for the highest quality research in basic cardiovascular biology. The journal publishes studies that utilize state-of-the-art approaches to investigate mechanisms of human disease, as well as translational and clinical research that provide fundamental insights into the basis of disease and the mechanism of therapies. Circulation Research has a broad audience that includes clinical and academic cardiologists, basic cardiovascular scientists, physiologists, cellular and molecular biologists, and cardiovascular pharmacologists. The journal aims to advance the understanding of cardiovascular biology and disease by disseminating cutting-edge research to these diverse communities. In terms of indexing, Circulation Research is included in several prominent scientific databases, including BIOSIS, CAB Abstracts, Chemical Abstracts, Current Contents, EMBASE, and MEDLINE. This ensures that the journal's articles are easily discoverable and accessible to researchers in the field. Overall, Circulation Research is a reputable publication that attracts high-quality research and provides a platform for the dissemination of important findings in basic cardiovascular biology and its translational and clinical applications.

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