Monocyte-derived transcriptomes explain the ineffectiveness of abatacept in rheumatoid arthritis.

Takeshi IwasakiRyu WatanabeHiromu ItoTakayuki FujiiKoichiro OhmuraHiroyuki YoshitomiKoichi MurataKosaku MurakamiAkira OnishiMasao TanakaShuichi MatsudaFumihiko MatsudaAkio MorinobuMotomu Hashimoto

Published in: Arthritis research & therapy (2024)

Monocyte-derived transcriptomic features before treatment underlie the differences in abatacept efficacy in patients with RA. The pathway activated in monocytes was the TLR5 and IL17RA-HGF signature in the current study, while it was the OXPHOS pathway in the replication set. Elevated levels of HGF before treatment may serve as a potential biomarker for predicting poor responses to abatacept. These findings provide insights into the biological mechanisms of abatacept resistance, contributing valuable evidence for stratifying patients with RA.

Keyphrases

rheumatoid arthritis
disease activity
ankylosing spondylitis
dendritic cells
rheumatoid arthritis patients
interstitial lung disease
endothelial cells
single cell
toll like receptor
immune response
peripheral blood
inflammatory response
systemic lupus erythematosus
combination therapy
nuclear factor