Interferon adjusts stem cell output in the young and old brain to meet demand independently of its antiviral function

Stem cells show intrinsic interferon signaling, which protects them from viral infections. In the brain, type I interferon signaling increases in stem cells as they age and reduces their ability to become activated for repair. Whether interferons impact stem cell activity only in aging, how, and if it is coupled to the intrinsic immune function remains elusive. Our study shows that interferon-β arrested stem cells in G0 of the cell cycle and transiently increased their TOR signaling before switching it off. This bimodal regulation of TOR is needed to repress translation of Sox2. Single-cell transcriptomics reveals that in the absence of interferon receptors, interferon signaling levels change and its increase with age disappears. Mathematical simulations indicate that interferons are beneficial in the young and harmful in the old brain. Our study identifies interferons as genuine regulators of stem cell homeostasis and potential therapeutic target to repair the aging brain.