Department of Neurobiology, University of Utah, Salt Lake City, United States.
Interdepartmental Program in Neuroscience, University of Utah, Salt Lake City, United States.
Elife. 2022 Apr 28;11:e76564. doi: 10.7554/eLife.76564.
Microglia serve critical remodeling roles that shape the developing nervous system, responding to the changing neural environment with phagocytosis or soluble factor secretion. Recent single-cell sequencing (scRNAseq) studies have revealed the context-dependent diversity in microglial properties and gene expression, but the cues promoting this diversity are not well defined. Here, we ask how interactions with apoptotic neurons shape microglial state, including lysosomal and lipid metabolism gene expression and dependence on Colony-stimulating factor 1 receptor (CSF1R) for survival. Using early postnatal mouse retina, a CNS region undergoing significant developmental remodeling, we performed scRNAseq on microglia from mice that are wild-type, lack neuronal apoptosis (Bax KO), or are treated with CSF1R inhibitor (PLX3397). We find that interactions with apoptotic neurons drive multiple microglial remodeling states, subsets of which are resistant to CSF1R inhibition. We find that TAM receptor Mer and complement receptor 3 are required for clearance of apoptotic neurons, but that Mer does not drive expression of remodeling genes. We show TAM receptor Axl is negligible for phagocytosis or remodeling gene expression but is consequential for microglial survival in the absence of CSF1R signaling. Thus, interactions with apoptotic neurons shift microglia toward distinct remodeling states and through Axl, alter microglial dependence on survival pathway, CSF1R.
小胶质细胞在塑造发育中的神经系统方面发挥着至关重要的重塑作用,通过吞噬作用或可溶性因子分泌来响应不断变化的神经环境。最近的单细胞测序 (scRNAseq) 研究揭示了小胶质细胞特性和基因表达的上下文相关多样性,但促进这种多样性的线索尚未明确定义。在这里,我们想知道与凋亡神经元的相互作用如何塑造小胶质细胞状态,包括溶酶体和脂质代谢基因的表达,以及对集落刺激因子 1 受体 (CSF1R) 生存的依赖。使用早期 postnatal 小鼠视网膜,这是一个经历重大发育重塑的中枢神经系统区域,我们对来自野生型、缺乏神经元凋亡 (Bax KO) 或用 CSF1R 抑制剂 (PLX3397) 处理的小鼠的小胶质细胞进行了 scRNAseq。我们发现与凋亡神经元的相互作用驱动了多个小胶质细胞重塑状态,其中一些对 CSF1R 抑制具有抗性。我们发现 TAM 受体 Mer 和补体受体 3 是清除凋亡神经元所必需的,但 Mer 不驱动重塑基因的表达。我们表明 TAM 受体 Axl 对吞噬作用或重塑基因表达的作用微不足道,但在没有 CSF1R 信号的情况下对小胶质细胞存活至关重要。因此,与凋亡神经元的相互作用使小胶质细胞向不同的重塑状态转变,并通过 Axl 改变小胶质细胞对生存途径 CSF1R 的依赖。
