The antiviral Interferon pathway drives astrocyte aging and motor decline

Aging encompasses low-level inflammation and motor decline. Astrocytes are neuroregulatory glial cells that change in aging, particularly in the cerebellum, which is essential for movement coordination. Regulation and functionality of cerebellar astrocytes in aging is unknown. We show that antiviral type I Interferons (IFN-I) drive motor deficits and regional astrocyte aging. Transcriptomics reveal that cerebellar astrocytes, but not cortical, exhibit an antiviral state that intensifies with age, with increased expression of Stat1. Aged mice display motor deficits similar to humans that improve after peripheral IFN-I receptor neutralization, whereas astrocyte Stat1 induces motor deficits during chronic inflammation in adults. While strong systemic inflammation induces astrocyte antiviral state, in aging, chromatin de-repression of Stat1 and nucleotide sensors in cerebellar astrocytes amplifies local IFN-I signaling. We identify functional interaction between a classical immune pathway and astrocytes, representing an actionable strategy to preserve motor function in aging.