A type I interferon response defines a conserved microglial state required for effective neuronal phagocytosis

Kavli Affiliate: Anna Molofsky, Bjoern Schwer

| Authors: Leah C. Dorman, Phi T. Nguyen, Caroline C. Escoubas, Ilia D. Vainchtein, Yinghong Xiao, Peter V. Lidsky, Haruna Nakajo, Nicholas J. Silva, Christian Lagares-Linares, Ellen Y. Wang, Sunrae E. Taloma, Beatriz Cuevas, Hiromi Nakao-Inoue, Brianna M. Rivera, Bjoern Schwer, Carlo Condello, Raul Andino, Tomasz J. Nowakowski and Anna V. Molofsky

| Summary:

Microglia, the innate immune cells of the brain, are exquisitely sensitive to dynamic changes in the neural environment. Using single cell RNA sequencing of the postnatal somatosensory cortex during topographic remapping, we identified a type I interferon (IFN-I) responsive microglia population that expanded with this developmental stressor. Using the marker gene IFITM3 we found that IFN-I responsive microglia were engulfing whole neurons. Loss of IFN-I signaling (Ifnar1-/-) resulted in dysmorphic ‘bubble’ microglia with enlarged phagolysosomal compartments. We also observed a reduction in dead cells and an accumulation of neurons with double strand DNA breaks, a marker of cell stress. Conversely, IFN-I gain of function in zebrafish was sufficient to drive microglial engulfment of whole neurons. We identified IFITM3+ microglia in two murine disease models: SARS-CoV-2 infection and the 5xFAD model of Alzheimer’s disease. These data reveal a novel role for IFN-I signaling in regulating efficient neuronal clearance by microglia.

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