Gardner Robert, Kyle Michele, Hughes Karen, Zhao Li-Ru
bioRxiv. 2024 Jun 13:2024.05.09.593359. doi: 10.1101/2024.05.09.593359.
Alzheimers disease leads to progressive neurodegeneration and dementia. Alzheimers disease primarily affects older adults with neuropathological changes including amyloid beta deposition, neuroinflammation, and neurodegeneration. We have previously demonstrated that systemic treatment with combined stem cell factor, SCF, and granulocyte colony stimulating factor, GCSF, reduces amyloid beta load, increases amyloid beta uptake by activated microglia and macrophages, reduces neuroinflammation, and restores dendrites and synapses in the brains of aged APP-PS1 mice. However, the mechanisms underlying SCF-GCSF-enhanced brain repair in aged APP-PS1 mice remain unclear. This study used a transcriptomic approach to identify potential mechanisms by which SCF-GCSF treatment modulates microglia and peripheral myeloid cells to mitigate Alzheimers disease pathology in the aged brain. After injections of SCF-GCSF for 5 consecutive days, single cell RNA sequencing was performed on CD11b positive cells isolated from the brains of 28-month-old APP-PS1 mice. The vast majority of cell clusters aligned with transcriptional profiles of microglia in various activation states. However, SCF-GCSF treatment dramatically increased a cell population showing upregulation of marker genes related to peripheral myeloid cells. Flow cytometry data also revealed an SCF-GCSF-induced increase of cerebral CD45high-CD11b positive active phagocytes. SCF-GCSF treatment robustly increased the transcription of genes implicated in immune cell activation, including gene sets that regulate inflammatory processes and cell migration. Expression of S100a8 and S100a9 were robustly enhanced following SCF-GCSF treatment in all CD11b positive cell clusters. Moreover, the topmost genes differentially expressed with SCF-GCSF treatment were largely upregulated in S100a8-S100a9 positive cells, suggesting a well-conserved transcriptional profile related to SCF-GCSF treatment in resident and peripherally derived CD11b positive immune cells. This S100a8-S100a9-associated transcriptional profile contained notable genes related to proinflammatory and antiinflammatory responses, neuroprotection, and amyloid beta plaque inhibition or clearance. Altogether, this study reveals immunomodulatory effects of SCF-GCSF treatment in the aged brain with Alzheimers disease pathology, which will guide future studies to further uncover the therapeutic mechanisms.
阿尔茨海默病会导致进行性神经退行性变和痴呆。阿尔茨海默病主要影响老年人,其神经病理学变化包括β淀粉样蛋白沉积、神经炎症和神经退行性变。我们之前已经证明,联合干细胞因子(SCF)和粒细胞集落刺激因子(GCSF)进行全身治疗,可降低β淀粉样蛋白负荷,增加活化的小胶质细胞和巨噬细胞对β淀粉样蛋白的摄取,减轻神经炎症,并恢复老年APP-PS1小鼠大脑中的树突和突触。然而,SCF-GCSF增强老年APP-PS1小鼠大脑修复的潜在机制仍不清楚。本研究采用转录组学方法来确定SCF-GCSF治疗调节小胶质细胞和外周髓样细胞以减轻老年大脑中阿尔茨海默病病理的潜在机制。连续5天注射SCF-GCSF后,对从28月龄APP-PS1小鼠大脑中分离出的CD11b阳性细胞进行单细胞RNA测序。绝大多数细胞簇与处于各种激活状态的小胶质细胞的转录谱一致。然而,SCF-GCSF治疗显著增加了一个细胞群体,该群体显示与外周髓样细胞相关的标记基因上调。流式细胞术数据还显示,SCF-GCSF诱导大脑中CD45high-CD11b阳性活性吞噬细胞增加。SCF-GCSF治疗有力地增加了与免疫细胞激活相关的基因的转录,包括调节炎症过程和细胞迁移的基因集。在所有CD11b阳性细胞簇中,SCF-GCSF治疗后S100a8和S100a9的表达均显著增强。此外,SCF-GCSF治疗后差异表达最显著的基因在S100a8-S100a9阳性细胞中大多上调,这表明在驻留和外周来源的CD11b阳性免疫细胞中,与SCF-GCSF治疗相关的转录谱高度保守。这种与S100a8-S100a9相关的转录谱包含了与促炎和抗炎反应、神经保护以及β淀粉样蛋白斑块抑制或清除相关的显著基因。总之,本研究揭示了SCF-GCSF治疗对患有阿尔茨海默病病理的老年大脑的免疫调节作用,这将指导未来的研究进一步揭示其治疗机制。
