Abstract
Primary Sjögren's syndrome (pSS) is an autoimmune disease of unresolved aetiology that affects the exocrine glands. Clinical symptoms frequently also involve skin, liver, kidney and neurovascular components. The pathogenesis of pSS is still unclear but B cell hyperactivity has been identified as a hallmark of pSS. Currently, a curative therapeutic agent is lacking. In this study, we explored whether paeoniflorin-6'-O-benzene (CP-25) exerted therapeutic effects through regulating B lymphocyte migration via CXCR5-GRK2-MAPK mediated signaling pathways in a mouse model of antigen-induced, experimental Sjögren's syndrome (ESS). We found that CP-25 increased the salivary flow and alleviated the histopathology of ESS. Furthermore, CP-25 reduced the viability of B lymphocyte and limited the target organs index. In the peripheral blood and salivary gland of ESS mice, CP-25 down-regulated the proportion of total B cells, CXCR5+ B cells and PDCA1 + CD19- and limited the presence of phosphorylated (p-) p38 and ERK (p-ERK). Besides, CP-25 increased the percentage of memory B cells in the peripheral blood and reduced it in salivary gland. Furthermore, in vitro, CP-25 down-regulated p-p38, p-ERK, CXCR5 and membrane GRK2, and increased cytoplasm GRK2 in Maver-1 cells, a mantle cell lymphoma cell line, causing a lower migration ability of Maver-1 cells. Thus, we define CP-25 as a novel compound that is a potent therapeutic agent for pSS which modulates B lymphocyte subsets and impacts the migration of B lymphocytes through regulating the CXCR5-GRK2-ERK/p38 signaling pathway.