The regulatory role of Dipeptidyl peptidase I on the activation of immune granulocytes.

Abstract

Dipeptidyl peptidase I (DPPI), a lysosomal cysteine protease, required for activation of serine proteases of granulocytes including mast cells (MCs), neutrophils (NPs) and others, which were found in synovial tissue of patients with rheumatoid arthritis (RA). But, the role of DPPI associated with those cells in RA development is unclear. In this study, the collagen-induced-arthritis (CIA) rat-model was employed to investigate the expression and activity levels of DPPI and its association with RA progress. Primary granulocytes were freshly extracted from bone-marrows of normal or CIA rats, human mast cell line LAD-2 and primary neutrophils, human-recombinant-DPPI, DPPI-inhibitor Gly-Phe-CHN2 , LTB4, anti-IgE antibody, calcium ionophore were used to study the regulatory role of DPPI in cell activations. The increased DPPI activities in synovial fluids, serum, and bone-marrow homogenates of CIA rats associated with RA severities progress were observed after injections. MMP2/9 expressions in SFs and bone-marrow were in different patterns. Regular-Blood-Tests have shown the high leveled DPPI activities associated with granulocytes differentiations in-vivo in blood of CIA rats. In-vitro cell models, DPPI up-regulated the proliferation of primary bone-marrow granulocytes of normal rats, but inhibited that of CIA rats. DPPI up-regulated and Gly-Phe-CHN2 down-regulated MCs intracellular DPPI and chymase activities. Gly-Phe-CHN2 also inhibited the LTB4 -activated-NPs and NP-elastase activities. Following stimulation of calcium ionophore, the net-releases of DPPI and β-hexosaminidase from MCs were increased over a time-course, while Gly-Phe-CHN2 down-regulated MCs and NPs activation. Our findings demonstrate the role of DPPI in regulating MCs and NPs activation, and modulating proteolysis in the process of RA.