Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease
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 prot...
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sg-ntu-dr.10356-1698562023-08-13T15:37:17Z Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease Fairley, Lauren H. Lai, Kei Onn Wong, Jia Hui Chong, Wei Jing Vincent, Anselm Salvatore D'Agostino, Giuseppe Wu, Xiaoting Naik, Roshan R. Jayaraman, Anusha Langley, Sarah Raye Ruedl, Christiane Barron, Anna M. Lee Kong Chian School of Medicine (LKCMedicine) School of Biological Sciences Center for Molecular Neuropathology Science::Medicine Microglia Alzheimer's disease 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. Ministry of Education (MOE) Nanyang Technological University Published version This project was funded by the Nanyang Assistant Professorship Award from Nanyang Technological University Singapore (A.M.B.) and the Ministry of Education, Singapore, under its Academic Research Fund Tier 1 (Project ID RG23/21; A.M.B.). 2023-08-08T06:23:15Z 2023-08-08T06:23:15Z 2023 Journal Article Fairley, L. H., Lai, K. O., Wong, J. H., Chong, W. J., Vincent, A. S., D'Agostino, G., Wu, X., Naik, R. R., Jayaraman, A., Langley, S. R., Ruedl, C. & Barron, A. M. (2023). Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease. Proceedings of the National Academy of Sciences of the United States of America, 120(8), e2209177120-. https://dx.doi.org/10.1073/pnas.2209177120 0027-8424 https://hdl.handle.net/10356/169856 10.1073/pnas.2209177120 36787364 2-s2.0-85148075442 8 120 e2209177120 en RG23/21 Proceedings of the National Academy of Sciences of the United States of America © 2023 The Author(s). Published by PNAS. This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND). application/pdf |
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Science::Medicine Microglia Alzheimer's disease Fairley, Lauren H. Lai, Kei Onn Wong, Jia Hui Chong, Wei Jing Vincent, Anselm Salvatore D'Agostino, Giuseppe Wu, Xiaoting Naik, Roshan R. Jayaraman, Anusha Langley, Sarah Raye Ruedl, Christiane Barron, Anna M. Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease |
| description |
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. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Fairley, Lauren H. Lai, Kei Onn Wong, Jia Hui Chong, Wei Jing Vincent, Anselm Salvatore D'Agostino, Giuseppe Wu, Xiaoting Naik, Roshan R. Jayaraman, Anusha Langley, Sarah Raye Ruedl, Christiane Barron, Anna M. |
| format |
Article |
| author |
Fairley, Lauren H. Lai, Kei Onn Wong, Jia Hui Chong, Wei Jing Vincent, Anselm Salvatore D'Agostino, Giuseppe Wu, Xiaoting Naik, Roshan R. Jayaraman, Anusha Langley, Sarah Raye Ruedl, Christiane Barron, Anna M. |
| author_sort |
Fairley, Lauren H. |
| title |
Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease |
| title_short |
Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease |
| title_full |
Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease |
| title_fullStr |
Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease |
| title_full_unstemmed |
Mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in Alzheimer's disease |
| title_sort |
mitochondrial control of microglial phagocytosis by the translocator protein and hexokinase 2 in alzheimer's disease |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169856 |
| _version_ |
1779156349033119744 |