@article{8a7e5d8cee3647e6a8771fdfed226dbc,
title = "Astrocytic phagocytosis is a compensatory mechanism for microglial dysfunction",
abstract = "Microglia are the principal phagocytes that clear cell debris in the central nervous system (CNS). This raises the question, which cells remove cell debris when microglial phagocytic activity is impaired. We addressed this question using Siglechdtr mice, which enable highly specific ablation of microglia. Non-microglial mononuclear phagocytes, such as CNS-associated macrophages and circulating inflammatory monocytes, did not clear microglial debris. Instead, astrocytes were activated, exhibited a pro-inflammatory gene expression profile, and extended their processes to engulf microglial debris. This astrocytic phagocytosis was also observed in Irf8-deficient mice, in which microglia were present but dysfunctional. RNA-seq demonstrated that even in a healthy CNS, astrocytes express TAM phagocytic receptors, which were the main astrocytic phagocytic receptors for cell debris in the above experiments, indicating that astrocytes stand by in case of microglial impairment. This compensatory mechanism may be important for the maintenance or prolongation of a healthy CNS.",
author = "Hiroyuki Konishi and Takayuki Okamoto and Yuichiro Hara and Okiru Komine and Hiromi Tamada and Mitsuyo Maeda and Fumika Osako and Masaaki Kobayashi and Akira Nishiyama and Yosky Kataoka and Toshiyuki Takai and Nobuyuki Udagawa and Steffen Jung and Keiko Ozato and Tomohiko Tamura and Makoto Tsuda and Koji Yamanaka and Tomoo Ogi and Katsuaki Sato and Hiroshi Kiyama",
note = "This work was supported by KAKENHI [Grants‐in‐Aid for Scientific Research on Priority Areas “Scrap & Build” 17H05743, “Grant‐in‐Aid for Scientific Research (B)” 16H05117, “Grant‐in‐Aid for Scientific Research (B)” 19H03395 to HKi, “Grant‐in‐Aid for Scientific Research (C)” 16K07055, and “Grant‐in‐Aid for Scientific Research (C)” 19K06904 to HKo] from the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan and by grants from the Nasu Foundation to HKo. We are grateful to Dr. P. Crocker (University of Dundee) for the anti‐Siglec‐H antibody, Dr. H. Ohnishi (Gunma University) for mouse transfer, Ms. Y. Itai and N. Tawarayama and K. Muraki for technical assistance, and Ms. A. Asano for secretarial work. We also acknowledge the Division for Medical Research Engineering, Nagoya University Graduate School of Medicine, for use of a flow cytometer, biomolecular imager, and 3D reconstruction software. We thank Dr. J. Allen from Edanz Group (www.edanzediting.com/ac) for editing a draft of this manuscript. Author contributions HKo and HKi designed the study. HKo, TOk, YH, OK, HT, MM, FO, MK, AN, and MT performed the experiments. HKo, YH, OK, HT, MM, FO, YK, KY, TOg, and HKi analyzed the data. TTak, NU, SJ, KO, TTam, and KS provided the materials. HKo, YH, and HKi wrote the manuscript.",
year = "2020",
month = sep,
day = "22",
doi = "https://doi.org/10.15252/embj.2020104464",
language = "الإنجليزيّة",
volume = "39",
journal = "The EMBO Journal",
issn = "0261-4189",
publisher = "EMBO Press",
number = "22",
}