Chronically activated microglia in ALS gradually lose their immune functions and develop unconventional proteome

IF 5.4 2区 医学 Q1 NEUROSCIENCES
Glia Pub Date : 2024-04-05 DOI:10.1002/glia.24531
Romina Barreto-Núñez, Louis-Charles Béland, Hejer Boutej, Vincent Picher-Martel, Nicolas Dupré, Luis Barbeito, Jasna Kriz
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Abstract

Neuroinflammation and chronic activation of microglial cells are the prominent features of amyotrophic lateral sclerosis (ALS) pathology. While alterations in the mRNA profile of diseased microglia have been well documented, the actual microglia proteome remains poorly characterized. Here we performed a functional characterization together with proteome analyses of microglial cells at different stages of disease in the SOD1-G93A model of ALS. Functional analyses of microglia derived from the lumbar spinal cord of symptomatic mice revealed: (i) remarkably high mitotic index (close to 100% cells are Ki67+) (ii) significant decrease in phagocytic capacity when compared to age-matched control microglia, and (iii) diminished response to innate immune challenges in vitro and in vivo. Proteome analysis revealed a development of two distinct molecular signatures at early and advanced stages of disease. While at early stages of disease, we identified several proteins implicated in microglia immune functions such as GPNMB, HMBOX1, at advanced stages of disease microglia signature at protein level was characterized with a robust upregulation of several unconventional proteins including rootletin, major vaults proteins and STK38. Upregulation of GPNMB and rootletin has been also found in the spinal cord samples of sporadic ALS. Remarkably, the top biological functions of microglia, in particular in the advanced disease, were not related to immunity/immune response, but were highly enriched in terms linked to RNA metabolism. Together, our results suggest that, over the course of disease, chronically activated microglia develop unconventional protein signatures and gradually lose their immune identity ultimately turning into functionally inefficient immune cells.

Abstract Image

Abstract Image

渐冻人症中慢性激活的小胶质细胞会逐渐丧失免疫功能并形成非常规蛋白质组
神经炎症和小胶质细胞的慢性激活是肌萎缩侧索硬化症(ALS)病理学的显著特征。虽然病变小胶质细胞的 mRNA 图谱的改变已被充分记录,但实际的小胶质细胞蛋白质组仍然特征不清。在这里,我们对 SOD1-G93A ALS 模型中处于不同疾病阶段的小胶质细胞进行了功能表征和蛋白质组分析。对从有症状小鼠腰脊髓中提取的小胶质细胞进行的功能分析显示:(i) 有丝分裂指数显著增高(接近 100% 的细胞 Ki67+);(ii) 与年龄匹配的对照小胶质细胞相比,吞噬能力显著下降;(iii) 对体外和体内先天性免疫挑战的反应减弱。蛋白质组分析显示,在疾病的早期和晚期,出现了两种不同的分子特征。在疾病的早期阶段,我们发现了几种与小胶质细胞免疫功能有关的蛋白质,如 GPNMB、HMBOX1,而在疾病的晚期阶段,小胶质细胞在蛋白质水平上的特征是几种非常规蛋白的强势上调,包括根蛋白、主要穹顶蛋白和 STK38。在散发性 ALS 的脊髓样本中也发现了 GPNMB 和 rootletin 的上调。值得注意的是,小胶质细胞的首要生物功能,尤其是在晚期疾病中,与免疫/免疫反应无关,而是高度富集在与 RNA 代谢相关的术语中。总之,我们的研究结果表明,在疾病过程中,长期激活的小胶质细胞会形成非常规蛋白特征,并逐渐失去其免疫特性,最终变成功能低下的免疫细胞。
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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.
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