STAT6/Arg1 promotes microglia/macrophage efferocytosis and inflammation resolution in stroke mice
Wei Cai, … , Xiaoming Hu, Jun Chen
Wei Cai, … , Xiaoming Hu, Jun Chen
Published October 17, 2019
Citation Information: JCI Insight. 2019;4(20):e131355. https://doi.org/10.1172/jci.insight.131355.
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Research Article Inflammation Neuroscience

STAT6/Arg1 promotes microglia/macrophage efferocytosis and inflammation resolution in stroke mice

Abstract

Efferocytosis, or phagocytic clearance of dead/dying cells by brain-resident microglia and/or infiltrating macrophages, is instrumental for inflammation resolution and restoration of brain homeostasis after stroke. Here, we identify the signal transducer and activator of transcription 6/arginase1 (STAT6/Arg1) signaling axis as a potentially novel mechanism that orchestrates microglia/macrophage responses in the ischemic brain. Activation of STAT6 was observed in microglia/macrophages in the ischemic territory in a mouse model of stroke and in stroke patients. STAT6 deficiency resulted in reduced clearance of dead/dying neurons, increased inflammatory gene signature in microglia/macrophages, and enlarged infarct volume early after experimental stroke. All of these pathological changes culminated in an increased brain tissue loss and exacerbated long-term functional deficits. Combined in vivo analyses using BM chimeras and in vitro experiments using microglia/macrophage-neuron cocultures confirmed that STAT6 activation in both microglia and macrophages was essential for neuroprotection. Adoptive transfer of WT macrophages into STAT6-KO mice reduced accumulation of dead neurons in the ischemic territory and ameliorated brain infarction. Furthermore, decreased expression of Arg1 in STAT6–/– microglia/macrophages was responsible for impairments in efferocytosis and loss of antiinflammatory modality. Our study suggests that efferocytosis via STAT6/Arg1 modulates microglia/macrophage phenotype, accelerates inflammation resolution, and improves stroke outcomes.

Authors

Wei Cai, Xuejiao Dai, Jie Chen, Jingyan Zhao, Mingyue Xu, Lili Zhang, Boyu Yang, Wenting Zhang, Marcelo Rocha, Toshimasa Nakao, Julia Kofler, Yejie Shi, R. Anne Stetler, Xiaoming Hu, Jun Chen

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Figure 4

Capacity of dead/dying neuron clearance in microglia/macrophages was impaired in STAT6-KO mice.

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Capacity of dead/dying neuron clearance in microglia/macrophages was imp...
WT and STAT6-KO mice were subjected to 60 minutes of tMCAO. Brains were collected 3d after tMCAO. (A) Representative images of NeuN (blue), TUNEL (green), and Iba1 (red) triple-staining. Scale bar: 10 μm. The inset image depicts the hemisphere ipsilateral to stroke, where brain infarction is shown in gray and the area for image analysis is indicated by the box. (B) High-power 3-D image generated from A. White arrows indicate microglia/macrophages that engulfed dead/dying neurons (Iba1+NeuN+TUNEL+). White arrowheads indicate dead/dying neurons that were not engulfed by microglia/macrophages (Iba1NeuN+TUNEL+). Yellow arrows indicate live neurons (Iba1NeuN+TUNEL). Yellow arrowhead indicates a TUNEL neuron touched by an Iba1+ cell (Iba1+NeuN+TUNEL). Scale bar: 10 μm. (C) Quantification of the total number of Iba1+ microglia/macrophages in ischemic areas as indicated in Figure1A. (D) The number of Iba1+NeuN+ cells in ischemia areas. (E) The number of Iba1+NeuN+TUNEL+ cells (microglia/macrophages with engulfed dead/dying neurons) in ischemic areas. (F) The number of Iba1NeuN+TUNEL+ nonengulfed dead neurons in ischemic areas was quantified. (G) Phagocytic index, the percentage of dead/dying neurons engulfed by microglia/macrophages ([number of Iba1+NeuN+TUNEL+ cells/number of NeuN+TUNEL+ cells] × 100%), was calculated in WT and STAT6-KO brains. (H) Quantification of Iba1+NeuN+TUNEL cells (microglia/macrophages colocalize with TUNEL neurons) in ischemic areas. n = 6 mice per group. **P ≤ 0.01, ***P ≤ 0.001 STAT6-KO vs. WT, Student’s t test.