Senescence-like cells recruit γδ T cells to drive prolonged hyposmia after SARS-CoV-2 infection in mice

Abstract Persistent hyposmia is a hallmark of post COVID-19 conditions, yet the mechanisms sustaining olfactory dysfunction after viral clearance remain poorly understood. Here, using mouse models of SARS-CoV-2 infection, we show that virus-induced senescence-like changes in uninfected olfactory mucosal fibroblasts persist long after viral clearance and drive prolonged olfactory dysfunction. These senescence-like cells secrete SASP factors, including IFNγ, CXCL9, and CXCL11, thereby recruiting γδ T cells to the olfactory mucosa. The accumulated γδ T cells produce excessive IL-17A, which acts on IL-17 receptor A expressed on olfactory sensory neurons, leading to sustained impairment of their function. Genetic ablation of senescence pathways (p16/p21 double knockout), pharmacological elimination of senescent cells with the senolytic drug ABT263, or olfactory neuron-specific deletion of IL-17 receptor A each significantly alleviate prolonged olfactory dysfunction. These findings identify a senescence–γδ T cell–IL-17A axis as a key driver of prolonged hyposmia following SARS-CoV-2 infection in mice.