Summary How mis-regulated chromatin directly impacts human immunological disease is poorly understood. Speckled Protein 140 (SP140) is an immune-restricted PHD and bromodomain-containing chromatin ‘reader’ whose loss-of-function associates with Crohn’s disease (CD), multiple sclerosis (MS) and chronic lymphocytic leukemia (CLL). However, mechanisms underlying SP140-driven pathogenicity and therapeutic approaches that rescue SP140 remain unexplored. Using a global proteomic strategy, we identified SP140 as a repressor of topoisomerases (TOP) that maintains heterochromatin and immune cell fate. In humans and mice, SP140 loss resulted in unleashed TOP activity, genome instability, severely compromised lineage-defining and microbe-inducible innate transcriptional programs and defective bacterial killing. Pharmacological inhibition of TOP1 or TOP2 rescued these defects. Furthermore, exacerbated colitis was restored with TOP1 or TOP2 inhibitors in Sp140 −/− mice, but not wild-type mice, in vivo. Collectively, we identify SP140 as a repressor of topoisomerases and reveal repurposing of TOP inhibition as a precision strategy for reversing SP140-driven immune disease.