损伤心脏中心包腔巨噬细胞的遗传谱系追踪

Genetic Lineage Tracing of Pericardial Cavity Macrophages in the Injured Heart.

作者信息

Jin Hengwei, Liu Kuo, Huang Xiuzhen, Huo Huanhuan, Mou Jialing, Qiao Zengyong, He Ben, Zhou Bin

机构信息

State Key Laboratory of Cell Biology, Shanghai Institute of Biochemistry and Cell Biology, Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences (H.J., X.H., J.M., B.Z.), University of Chinese Academy of Sciences, China.

School of Life Science, Hangzhou Institute for Advanced Study (K.L., B.Z.), University of Chinese Academy of Sciences, China.

出版信息

Circ Res. 2022 May 27;130(11):1682-1697. doi: 10.1161/CIRCRESAHA.122.320567. Epub 2022 Apr 20.

DOI:10.1161/CIRCRESAHA.122.320567

PMID:35440174

Abstract

BACKGROUND

Macrophages play an important role in cardiac repair after myocardial infarction (MI). In addition to the resident macrophages and blood-derived monocytes, Gata6 cavity macrophages located in the pericardial space were recently reported to relocate to the injured myocardium and prevent cardiac fibrosis. However, there is no direct genetic evidence to support it.

METHODS

We used dual recombinases (Cre and Dre) to specifically label Gata6 pericardial macrophages (GPCMs) in vivo. For functional study, we generated genetic systems to specifically ablate GPCMs by induced expression of DTR (diphtheria toxin receptor) or knockout of Gata6 (GATA binding protein 6) gene in GPCMs. We used these genetic systems to study GPCMs in pericardium intact MI model.

RESULTS

Dual recombinases-mediated genetic system targeted GPCMs specifically and efficiently. Lineage tracing study revealed accumulation of GPCMs on the surface of MI heart without deep penetration into the myocardium. We did not detect significant change of cardiac fibrosis or function of MI hearts after cell ablation or Gata6 knockout in GPCMs.

CONCLUSIONS

GPCMs minimally invade the injured heart after MI. Nor do they prevent cardiac fibrosis and exhibit reparative function on injured heart. This study also underlines the importance of using specific genetic tool for studying in vivo cell fates and functions.

摘要

背景

巨噬细胞在心肌梗死（MI）后的心脏修复中起重要作用。除了驻留巨噬细胞和血液来源的单核细胞外，最近有报道称位于心包腔的Gata6腔巨噬细胞会迁移至受损心肌并预防心脏纤维化。然而，尚无直接的遗传学证据支持这一点。

方法

我们使用双重组酶（Cre和Dre）在体内特异性标记Gata6心包巨噬细胞（GPCMs）。为了进行功能研究，我们构建了遗传系统，通过在GPCMs中诱导表达DTR（白喉毒素受体）或敲除Gata6（GATA结合蛋白6）基因来特异性消融GPCMs。我们使用这些遗传系统在完整心包的MI模型中研究GPCMs。

结果

双重组酶介导的遗传系统特异性且高效地靶向GPCMs。谱系追踪研究显示，GPCMs在MI心脏表面积聚，但未深入心肌。在对GPCMs进行细胞消融或敲除Gata6后，我们未检测到MI心脏的心脏纤维化或功能有显著变化。

结论

MI后GPCMs对受损心脏的侵袭极小。它们也不能预防心脏纤维化，对受损心脏也不具有修复功能。本研究还强调了使用特定遗传工具研究体内细胞命运和功能的重要性。

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损伤心脏中心包腔巨噬细胞的遗传谱系追踪

Genetic Lineage Tracing of Pericardial Cavity Macrophages in the Injured Heart.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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