Macrophage-specific lipoxygenase deletion amplify cardiac repair activating Treg cells in chronic heart failure.

IF 3.6 3区 医学 Q3 CELL BIOLOGY Journal of Leukocyte Biology Pub Date : 2024-10-01 DOI:10.1093/jleuko/qiae113
Vasundhara Kain, Gabriel Araujo Grilo, Gunjan Upadhyay, Jerry L Nadler, Charles N Serhan, Ganesh V Halade
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Abstract

Splenic leukocytes, particularly macrophage-expressed lipoxygenases, facilitate the biosynthesis of resolution mediators essential for cardiac repair. Next, we asked whether deletion of 12/15 lipoxygenase (12/15LOX) in macrophages impedes the resolution of inflammation following myocardial infarction (MI). Using 12/15flox/flox and LysMcre scheme, we generated macrophage-specific 12/15LOX (Mɸ-12/15LOX-/-) mice. Young C57BL/6J wild-type and Mɸ-12/15LOX-/- male mice were subjected to permanent coronary ligation microsurgery. Mice were monitored at day 1 (d1) to d5 (as acute heart failure [AHF]) and to d56 (chronic HF) post-MI, maintaining no MI as d0 naïve control animals. Post ligation, Mɸ-12/15LOX-/- mice showed increased survival (88% vs 56%) and limited heart dysfunction compared with wild-type. In AHF, Mɸ-12/15LOX-/- mice have increased biosynthesis of epoxyeicosatrienoic acid by 30%, with the decrease in D-series resolvins, protectin, and maresin by 70% in the infarcted heart. Overall, myeloid cell profiling from the heart and spleen indicated that Mɸ-12/15LOX-/- mice showed higher immune cells with reparative Ly6Clow macrophages during AHF. In addition, the detailed immune profiling revealed reparative macrophage phenotype (Ly6Clow) in Mɸ-12/15LOX-/- mice in a splenocardiac manner post-MI. Mɸ-12/15LOX-/- mice showed an increase in myeloid population that coordinated increase of T regulatory cells (CD4+/Foxp3+) in the spleen and injured heart at chronic HF compared with wild-type. Thus, macrophage-specific deletion of 12/15LOX directs reparative macrophage phenotype to facilitate cardiac repair. The presented study outlines the complex role of 12/15LOX in macrophage plasticity and T regulatory cell signaling that indicates that resolution mediators are viable targets to facilitate cardiac repair in HF post-MI.

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巨噬细胞特异性脂氧合酶缺失可增强慢性心力衰竭患者的心脏修复激活集落。
脾白细胞,尤其是巨噬细胞表达的脂氧合酶,促进了对心脏修复至关重要的解痉介质的生物合成。接下来,我们询问巨噬细胞中 12/15 脂氧合酶(12/15LOX)的缺失是否会阻碍心肌梗死(MI)后炎症的消退。利用 12/15flox/flox 和 LysMcre 方案,我们产生了巨噬细胞特异性 12/15LOX (Mɸ-12/15LOX-/-)小鼠。对年轻的 C57BL/6J 野生型和 Mɸ-12/15LOX-/- 雄性小鼠进行永久性冠状动脉结扎显微手术。小鼠在冠状动脉结扎术后第 1 天至第 5 天(急性高房颤动;AHF)和第 56 天(慢性高房颤动;CHF)接受监测,并保持无冠状动脉结扎作为第 0 天的天真对照组。与 WT 相比,Mɸ-12/15LOX-/- 小鼠结扎后的存活率更高(88%vs56%),心脏功能障碍也有限。在AHF中,Mɸ-12/15LOX-/小鼠的环二十碳三烯酸(EETs)生物合成增加了30%,梗死心脏中的D-系列resolvins、protectin和maresin减少了70%。总体而言,来自心脏和脾脏的髓细胞图谱显示,Mɸ-12/15LOX-/-小鼠在AHF期间表现出较高的免疫细胞,其中有修复性Ly6Clow巨噬细胞。此外,详细的免疫图谱分析表明,Mɸ-12/15LOX-/-小鼠在心肌梗死后以脾脏方式出现了修复性巨噬细胞表型(Ly6Clow)。与 WT 小鼠相比,Mɸ-12/15LOX-/- 小鼠的髓细胞数量增加,这与 CHF 时脾脏和受伤心脏中 Tregs(CD4+/Foxp3+)的增加相协调。因此,巨噬细胞特异性缺失 12/15LOX 可引导修复性巨噬细胞表型,促进心脏修复。本研究概述了12/15LOX在巨噬细胞可塑性和Treg信号转导中的复杂作用,表明决议介质是促进心肌梗死后心力衰竭心脏修复的可行靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Leukocyte Biology
Journal of Leukocyte Biology 医学-免疫学
CiteScore
11.50
自引率
0.00%
发文量
358
审稿时长
2 months
期刊介绍: JLB is a peer-reviewed, academic journal published by the Society for Leukocyte Biology for its members and the community of immunobiologists. The journal publishes papers devoted to the exploration of the cellular and molecular biology of granulocytes, mononuclear phagocytes, lymphocytes, NK cells, and other cells involved in host physiology and defense/resistance against disease. Since all cells in the body can directly or indirectly contribute to the maintenance of the integrity of the organism and restoration of homeostasis through repair, JLB also considers articles involving epithelial, endothelial, fibroblastic, neural, and other somatic cell types participating in host defense. Studies covering pathophysiology, cell development, differentiation and trafficking; fundamental, translational and clinical immunology, inflammation, extracellular mediators and effector molecules; receptors, signal transduction and genes are considered relevant. Research articles and reviews that provide a novel understanding in any of these fields are given priority as well as technical advances related to leukocyte research methods.
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