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一种针对胚胎来源的脑巨噬细胞的 Cre-deleter 揭示了小胶质细胞和边界巨噬细胞的不同特征。

A Cre-deleter specific for embryo-derived brain macrophages reveals distinct features of microglia and border macrophages.

机构信息

Department of Pathology and Immunology, Washington University School of Medicine in Saint Louis, Saint Louis, MO, USA.

Department of Computer Science, Stanford University, Stanford, CA, USA; Gladstone-UCSF Institute of Genomic Immunology, San Francisco, CA, USA.

出版信息

Immunity. 2023 May 9;56(5):1027-1045.e8. doi: 10.1016/j.immuni.2023.01.028. Epub 2023 Feb 14.

DOI:10.1016/j.immuni.2023.01.028
PMID:36791722
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10175109/
Abstract

Genetic tools to target microglia specifically and efficiently from the early stages of embryonic development are lacking. We generated a constitutive Cre line controlled by the microglia signature gene Crybb1 that produced nearly complete recombination in embryonic brain macrophages (microglia and border-associated macrophages [BAMs]) by the perinatal period, with limited recombination in peripheral myeloid cells. Using this tool in combination with Flt3-Cre lineage tracer, single-cell RNA-sequencing analysis, and confocal imaging, we resolved embryonic-derived versus monocyte-derived BAMs in the mouse cortex. Deletion of the transcription factor SMAD4 in microglia and embryonic-derived BAMs using Crybb1-Cre caused a developmental arrest of microglia, which instead acquired a BAM specification signature. By contrast, the development of genuine BAMs remained unaffected. Our results reveal that SMAD4 drives a transcriptional and epigenetic program that is indispensable for the commitment of brain macrophages to the microglia fate and highlight Crybb1-Cre as a tool for targeting embryonic brain macrophages.

摘要

缺乏能够从胚胎发育早期特异性和有效地靶向小胶质细胞的遗传工具。我们生成了一个由小胶质细胞特征基因 Crybb1 控制的组成型 Cre 系,该系在围产期前几乎完全重组胚胎大脑中的巨噬细胞(小胶质细胞和边界相关巨噬细胞 [BAMs]),而在外周髓样细胞中重组有限。使用此工具与 Flt3-Cre 谱系示踪剂、单细胞 RNA 测序分析和共聚焦成像相结合,我们在小鼠皮层中解析了胚胎来源的与单核细胞来源的 BAMs。使用 Crybb1-Cre 对小胶质细胞和胚胎来源的 BAMs 中的转录因子 SMAD4 进行缺失会导致小胶质细胞的发育停滞,而小胶质细胞转而获得 BAM 特异性特征。相比之下,真正的 BAMs 的发育不受影响。我们的结果表明,SMAD4 驱动了一个转录和表观遗传程序,对于大脑巨噬细胞向小胶质细胞命运的决定是必不可少的,并突出了 Crybb1-Cre 作为靶向胚胎大脑巨噬细胞的工具。

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