Complement C3aR depletion reverses HIF-1α–induced metabolic impairment and enhances microglial response to Aβ pathology
Manasee Gedam, … , Meng C. Wang, Hui Zheng
Manasee Gedam, … , Meng C. Wang, Hui Zheng
Published June 15, 2023
Citation Information: J Clin Invest. 2023;133(12):e167501. https://doi.org/10.1172/JCI167501.
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Complement C3aR depletion reverses HIF-1α–induced metabolic impairment and enhances microglial response to Aβ pathology

Abstract

Microglia are the major cell type expressing complement C3a receptor (C3aR) in the brain. Using a knockin mouse line in which a Td-tomato reporter is incorporated into the endogenous C3ar1 locus, we identified 2 major subpopulations of microglia with differential C3aR expression. Expressing the Td-tomato reporter on the APPNL-G-F–knockin (APP-KI) background revealed a significant shift of microglia to a high-C3aR-expressing subpopulation and they were enriched around amyloid β (Aβ) plaques. Transcriptomic analysis of C3aR-positive microglia documented dysfunctional metabolic signatures, including upregulation of hypoxia-inducible factor 1 (HIF-1) signaling and abnormal lipid metabolism in APP-KI mice compared with wild-type controls. Using primary microglial cultures, we found that C3ar1-null microglia had lower HIF-1α expression and were resistant to hypoxia mimetic–induced metabolic changes and lipid droplet accumulation. These were associated with improved receptor recycling and Aβ phagocytosis. Crossing C3ar1-knockout mice with the APP-KI mice showed that C3aR ablation rescued the dysregulated lipid profiles and improved microglial phagocytic and clustering abilities. These were associated with ameliorated Aβ pathology and restored synaptic and cognitive function. Our studies identify a heightened C3aR/HIF-1α signaling axis that influences microglial metabolic and lipid homeostasis in Alzheimer disease, suggesting that targeting this pathway may offer therapeutic benefit.

Authors

Manasee Gedam, Michele M. Comerota, Nicholas E. Propson, Tao Chen, Feng Jin, Meng C. Wang, Hui Zheng

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Figure 7

Absence of C3aR reduces Aβ pathology and improves cognitive deficits.

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Absence of C3aR reduces Aβ pathology and improves cognitive deficits. (A...
(A) Representative microscopy images of thioflavin S (ThioS) from 9-month-old APP-KI and APP-KI; C3aR-KO mice. Scale bar: 1 mm. (B) Quantification of percentage total ThioS+ area in 9-month-old animals (n = 7–8 mice/group). (C) Quantification of total size of ThioS+ plaques from APP-KI and APP-KI; C3aR-KO mice. (D) Results from ELISA measurement of Aβ42 and Aβ40 concentrations in guanidine hydrochloride fraction (insoluble) and TBS fraction (soluble) from 9-month-old APP-KI and APP-KI; C3aR-KO animals (n = 4 mice/group). (E) Representative images of presynaptic marker synaptophysin (yellow) and postsynaptic marker PSD-95 (cyan) from 9-month-old animals. Inset showing enlarged view of colocalization of synaptophysin and PSD-95. (F) Quantification of colocalized synaptophysin and PSD-95 puncta from E (n = 6 mice/group). Scale bar: 5 μm. (G) Representative 3D reconstruction and rendering of PSD-95 (green) signal inside Iba-1+ microglia (red) from 9-month-old animals (n = 6 mice/group). Scale bar: 5 μm. (H) Quantification of PSD-95 volume inside microglia. (I) Results from novel object recognition assay of 9-month-old WT, C3aR-KO, APP-KI, and APP-KI; C3aR-KO animals (n = 8-10 mice/group). For all panels, data are presented as mean ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001 by 1-way ANOVA with Tukey’s correction (B, F, H, and I) or 2-sided Student’s t test (C and D).