Abstract
A strong female bias is characteristic of systemic lupus erythematosus (SLE), the prototypic systemic autoimmune disease. Here, through an unbiased transcriptome analysis, we report a pronounced female-biased expression of the cohesin complex subunit SMC1A, a genome architectural factor, in monocytes from SLE patients compared to those from healthy individuals or patients with ankylosing spondylitis, a non-sex-biased autoimmune disorder. Integration of SMC1A binding, chromatin activity, and accessibility in lupus-like monocytes reveals extensive SMC1A redistribution to active enhancers of immune/inflammatory genes, inducing their transcription. SLE monocyte transcriptomes demonstrate significant enrichment of female-biased immune/inflammatory genes among SMC1A targets, accompanied by increased secretion of cytokines including IL6, with enhanced SMC1A binding at their enhancers in lupus-like monocytes. Collectively, our study highlights SMC1A as a female-biased chromatin modifier that acquires a specific regulatory function during lupus, accentuating inflammatory pathways and providing mechanistic insights into the female-biased predisposition to SLE and other autoimmune diseases.