Type I Interferon Signaling via the EGR2 Transcriptional Regulator Potentiates CAR T cell-intrinsic Dysfunction.

Chimeric antigen receptor (CAR) T-cell therapy has shown promise in treating hematological cancers, but resistance is common, and efficacy is limited in solid tumors. We found that CAR T-cells autonomously propagate epigenetically-programmed type I interferon signaling through chronic stimulation, which hampers antitumor function. EGR2 transcriptional regulator knockout not only blocks this type I interferon-mediated inhibitory program, but also independently expands early memory CAR T-cells with improved efficacy against liquid and solid tumors. The protective effect of EGR2 deletion in CAR T-cells against chronic antigen-induced exhaustion can be overridden by interferon-β exposure, suggesting that EGR2 ablation suppresses dysfunction by inhibiting type I interferon signaling. Finally, a refined EGR2 gene signature is a biomarker for type I interferon-associated CAR T-cell failure and shorter patient survival. These findings connect prolonged CAR T-cell activation with deleterious immunoinflammatory signaling and point to an EGR2-type I interferon axis as a therapeutically amenable biologic system.