Deep phenotyping of T regulatory cells in psoriatic arthritis highlights targetable mechanisms of disease.

Regulatory T cells (Tregs) are immune regulatory T cells that are vital for controlling inflammation. The role of Tregs in inflammatory diseases namely psoriatic arthritis (PsA) is still poorly understood. The underlying reason being a lack of robust unbiased analysis to test the immune regulatory phenotype of human Tregs. Here, we propose that checkpoint receptors can identify functional Tregs in PsA. Using unbiased BD Rhapsody single-cell analysis, we have analyzed the expression pattern of checkpoint receptors in Tregs and found that PsA Tregs are enriched in the expression of CTLA4, TIGIT, PD-1, and GITR while TIM3 was downregulated. Furthermore, PD-1+ Tregs in PsA had an increased type 1 phenotype and expressed the protease asparaginyl endopeptidase. By harnessing the PD-1 signaling pathway and inhibiting asparaginyl endopeptidase, PsA Treg function was significantly enhanced in in vitro suppressor assays. Next, we interrogated the cell interaction pathways of Tregs in PsA and found a diminished crosstalk with circulating osteoclast precursors through the CD244-CD48 coreceptor pathways. Therapeutically, PsA Treg function could be enhanced by modulating PD-1 and osteoclast interactions. Our study suggests that unconventional immune cell crosstalk with Tregs is severely diminished in PsA.