Microglial SIRP regulates the emergence of CD11c+ microglia and demyelination damage in white matter

• Published in: bioRxiv
• Main Authors: Sato-Hashimoto, Miho, Nozu, Tomomi, Toriba, Riho, Horikoshi, Ayano, Akaike, Miho, Kawamoto, Kyoko, Hirose, Ayaka, Hayashi, Yuriko, Nagai, Hiromi, Shimizu, Wakana, Saiki, Ayaka, Ishikawa, Tatsuya, Elhanbaly, Ruwaida, Kotani, Takenori, Murata, Yoji, Saito, Yasuyuki, Naruse, Masae, Shibasaki, Koji, Pre-Arne Oldenborg, Jung, Steffen, Matozaki, Takashi, Fukazawa, Yugo, Ohnishi, Hiroshi
• Format: Paper
• Language: English
• Published: Cold Spring Harbor Cold Spring Harbor Laboratory Press 24.10.2018
• Subjects: Brain injury; CD11c antigen; Cuprizone; Demyelination; Membrane proteins; Microglia; Phenotypes; Substantia alba
• DOI: 10.1101/443531

A characteristic subset of microglia expressing CD11c appears in response to brain damage. However, the functional role of CD11c+ microglia, as well as the mechanism of its induction, are poorly understood. Here we report that the genetic ablation of signal regulatory protein (SIRP ), a membrane protein, induced CD11c+ microglia in the brain white matter. Mice lacking CD47, a physiological ligand of SIRP , and microglia-specific SIRP knockout mice exhibited the same phenotype, suggesting the interaction between microglial SIRP and CD47 on neighbouring cells suppressed the emergence of CD11c+ microglia. A lack of SIRP did not cause detectable damage in the white matter, but resulted in the increased expression of genes characteristic of the repair phase after demyelination. In addition, cuprizone-induced demyelination was alleviated by the microglia-specific ablation of SIRP . Thus, microglial SIRP suppresses the induction of CD11c+ microglia that have the potential to accelerate the repair of damaged white matter. Footnotes * A spelling mistake in the name of one author is corrected.