Long-term reprogramming of primed microglia after moderate inhibition of CSF1R signaling.

IF 5.4 2区 医学 Q1 NEUROSCIENCES Glia Pub Date : 2024-10-24 DOI:10.1002/glia.24627
Ana León-Rodríguez, Jesús M Grondona, Sonia Marín-Wong, Manuel F López-Aranda, María D López-Ávalos
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Abstract

In acute neuroinflammation, microglia activate transiently, and return to a resting state later on. However, they may retain immune memory of such event, namely priming. Primed microglia are more sensitive to new stimuli and develop exacerbated responses, representing a risk factor for neurological disorders with an inflammatory component. Strategies to control the hyperactivation of microglia are, hence, of great interest. The receptor for colony stimulating factor 1 (CSF1R), expressed in myeloid cells, is essential for microglia viability, so its blockade with specific inhibitors (e.g. PLX5622) results in significant depletion of microglial population. Interestingly, upon inhibitor withdrawal, new naïve microglia repopulate the brain. Depletion-repopulation has been proposed as a strategy to reprogram microglia. However, substantial elimination of microglia is inadvisable in human therapy. To overcome such drawback, we aimed to reprogram long-term primed microglia by CSF1R partial inhibition. Microglial priming was induced in mice by acute neuroinflammation, provoked by intracerebroventricular injection of neuraminidase. After 3-weeks recovery, low-dose PLX5622 treatment was administrated for 12 days, followed by a withdrawal period of 7 weeks. Twelve hours before euthanasia, mice received a peripheral lipopolysaccharide (LPS) immune challenge, and the subsequent microglial inflammatory response was evaluated. PLX5622 provoked a 40%-50% decrease in microglial population, but basal levels were restored 7 weeks later. In the brain regions studied, hippocampus and hypothalamus, LPS induced enhanced microgliosis and inflammatory activation in neuraminidase-injected mice, while PLX5622 treatment prevented these changes. Our results suggest that PLX5622 used at low doses reverts microglial priming and, remarkably, prevents broad microglial depletion.

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适度抑制 CSF1R 信号传导后,原始小胶质细胞的长期重编程。
在急性神经炎症中,小胶质细胞会短暂激活,随后恢复静息状态。然而,它们可能会保留对此类事件的免疫记忆,即 "引物"。被激活的小胶质细胞对新的刺激更敏感,并产生加剧的反应,这是导致神经系统炎症性疾病的一个危险因素。因此,控制小胶质细胞过度激活的策略备受关注。髓系细胞中表达的集落刺激因子 1(CSF1R)受体对小胶质细胞的活力至关重要,因此使用特异性抑制剂(如 PLX5622)阻断该受体会导致小胶质细胞数量显著减少。有趣的是,抑制剂停用后,新的幼稚小胶质细胞会重新填充大脑。消耗-重新填充被认为是小胶质细胞重编程的一种策略。然而,在人类治疗中不宜大量清除小胶质细胞。为了克服这一缺点,我们的目标是通过 CSF1R 部分抑制对长期初始化的小胶质细胞进行重编程。通过脑室内注射神经氨酸酶诱发急性神经炎症,诱导小鼠产生小胶质细胞引物。恢复 3 周后,小剂量 PLX5622 治疗 12 天,然后停药 7 周。安乐死前 12 小时,小鼠接受外周脂多糖(LPS)免疫挑战,并对随后的小胶质细胞炎症反应进行评估。PLX5622 可使小胶质细胞数量减少 40%-50%,但 7 周后可恢复到基本水平。在所研究的脑区(海马和下丘脑),LPS诱导神经氨酸酶注射小鼠的小胶质细胞增多和炎症激活,而 PLX5622 治疗则阻止了这些变化。我们的研究结果表明,小剂量使用 PLX5622 可逆转小胶质细胞引诱,并显著防止广泛的小胶质细胞耗竭。
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来源期刊
Glia
Glia 医学-神经科学
CiteScore
13.10
自引率
4.80%
发文量
162
审稿时长
3-8 weeks
期刊介绍: GLIA is a peer-reviewed journal, which publishes articles dealing with all aspects of glial structure and function. This includes all aspects of glial cell biology in health and disease.
期刊最新文献
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