Author:
Zhang Fan,Wei Kevin,Slowikowski Kamil,Fonseka Chamith Y.,Rao Deepak A.,Kelly Stephen,Goodman Susan M.,Tabechian Darren,Hughes Laura B.,Salomon-Escoto Karen,Watts Gerald F. M.,Apruzzese William,Lieb David J.,Boyle David L.,Mandelin Arthur M.,Boyce Brendan F.,DiCarlo Edward,Gravallese Ellen M.,Gregersen Peter K.,Moreland Larry,Firestein Gary S.,Hacohen Nir,Nusbaum Chad,Lederer James A.,Perlman Harris,Pitzalis Costantino,Filer Andrew,Holers V. Michael,Bykerk Vivian P.,Donlin Laura T.,Anolik Jennifer H.,Brenner Michael B.,Raychaudhuri Soumya,
Abstract
AbstractTo define the cell populations in rheumatoid arthritis (RA) driving joint inflammation, we applied single-cell RNA-seq (scRNA-seq), mass cytometry, bulk RNA-seq, and flow cytometry to sorted T cells, B cells, monocytes, and fibroblasts from 51 synovial tissue RA and osteoarthritis (OA) patient samples. Utilizing an integrated computational strategy based on canonical correlation analysis to 5,452 scRNA-seq profiles, we identified 18 unique cell populations. Combining mass cytometry and transcriptomics together revealed cell states expanded in RA synovia: THY1+HLAhigh sublining fibroblasts (OR=33.8), IL1B+ pro-inflammatory monocytes (OR=7.8), CD11c+T-bet+ autoimmune-associated B cells (OR=5.7), and PD-1+Tph/Tfh (OR=3.0). We also defined CD8+ T cell subsets characterized by GZMK+, GZMB+, and GNLY+ expression. Using bulk and single-cell data, we mapped inflammatory mediators to source cell populations, for example attributing IL6 production to THY1+HLAhigh fibroblasts and naïve B cells, and IL1B to pro-inflammatory monocytes. These populations are potentially key mediators of RA pathogenesis.
Publisher
Cold Spring Harbor Laboratory