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阿尔茨海默病中通过转位蛋白和己糖激酶 2 对小胶质细胞吞噬作用的线粒体控制。

Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease.

机构信息

Neurobiology of Aging and Disease Laboratory, Lee Kong Chian School of Medicine, Nanyang Technological University Singapore, 308232, Singapore.

Lee Kong Chian School of Medicine, Nanyang Technological University Singapore, 308232, Singapore.

出版信息

Proc Natl Acad Sci U S A. 2023 Feb 21;120(8):e2209177120. doi: 10.1073/pnas.2209177120. Epub 2023 Feb 14.

DOI:10.1073/pnas.2209177120
PMID:36787364
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9974442/
Abstract

Microglial phagocytosis is an energetically demanding process that plays a critical role in the removal of toxic protein aggregates in Alzheimer's disease (AD). Recent evidence indicates that a switch in energy production from mitochondrial respiration to glycolysis disrupts this important protective microglial function and may provide therapeutic targets for AD. Here, we demonstrate that the translocator protein (TSPO) and a member of its mitochondrial complex, hexokinase-2 (HK), play critical roles in microglial respiratory-glycolytic metabolism and phagocytosis. Pharmacological and genetic loss-of-function experiments showed that TSPO is critical for microglial respiratory metabolism and energy supply for phagocytosis, and its expression is enriched in phagocytic microglia of AD mice. Meanwhile, HK controlled glycolytic metabolism and phagocytosis via mitochondrial binding or displacement. In cultured microglia, TSPO deletion impaired mitochondrial respiration and increased mitochondrial recruitment of HK, inducing a switch to glycolysis and reducing phagocytosis. To determine the functional significance of mitochondrial HK recruitment, we developed an optogenetic tool for reversible control of HK localization. Displacement of mitochondrial HK inhibited glycolysis and improved phagocytosis in TSPO-knockout microglia. Mitochondrial HK recruitment also coordinated the inflammatory switch to glycolysis that occurs in response to lipopolysaccharide in normal microglia. Interestingly, cytosolic HK increased phagocytosis independent of its metabolic activity, indicating an immune signaling function. Alzheimer's beta amyloid drastically stimulated mitochondrial HK recruitment in cultured microglia, which may contribute to microglial dysfunction in AD. Thus, targeting mitochondrial HK may offer an immunotherapeutic approach to promote phagocytic microglial function in AD.

摘要

小胶质细胞吞噬作用是一个能量需求很高的过程,在阿尔茨海默病(AD)中有毒蛋白聚集体的清除中起着关键作用。最近的证据表明,能量产生从线粒体呼吸到糖酵解的转变会破坏这种重要的保护性小胶质细胞功能,并可能为 AD 提供治疗靶点。在这里,我们证明了转位蛋白(TSPO)及其线粒体复合物中的一个成员己糖激酶-2(HK)在小胶质细胞呼吸-糖酵解代谢和吞噬作用中起着关键作用。药理学和基因功能丧失实验表明,TSPO 对小胶质细胞呼吸代谢和吞噬作用的能量供应至关重要,其表达在 AD 小鼠的吞噬性小胶质细胞中富集。同时,HK 通过与线粒体的结合或位移控制糖酵解代谢和吞噬作用。在培养的小胶质细胞中,TSPO 的缺失会损害线粒体呼吸并增加 HK 向线粒体的募集,从而诱导向糖酵解的转变,并减少吞噬作用。为了确定线粒体 HK 募集的功能意义,我们开发了一种光遗传学工具来可逆地控制 HK 的定位。线粒体 HK 的置换抑制了 TSPO 敲除小胶质细胞中的糖酵解,并改善了吞噬作用。线粒体 HK 的募集还协调了正常小胶质细胞中脂多糖诱导的糖酵解炎症开关。有趣的是,细胞质 HK 增加了吞噬作用,而不依赖其代谢活性,表明其具有免疫信号功能。阿尔茨海默病 β 淀粉样蛋白在培养的小胶质细胞中强烈刺激线粒体 HK 的募集,这可能导致 AD 中小胶质细胞功能障碍。因此,靶向线粒体 HK 可能为促进 AD 中吞噬性小胶质细胞的功能提供一种免疫治疗方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/69b1ef7ae5d5/pnas.2209177120fig06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/d502330e3a4e/pnas.2209177120fig01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/91cadd9977e6/pnas.2209177120fig02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/bc30f708dd80/pnas.2209177120fig03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/409672f9bded/pnas.2209177120fig04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/07499a50338f/pnas.2209177120fig05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/69b1ef7ae5d5/pnas.2209177120fig06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/d502330e3a4e/pnas.2209177120fig01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/91cadd9977e6/pnas.2209177120fig02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/bc30f708dd80/pnas.2209177120fig03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/409672f9bded/pnas.2209177120fig04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/07499a50338f/pnas.2209177120fig05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3643/9974442/69b1ef7ae5d5/pnas.2209177120fig06.jpg

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