The role of DcR3 in systemic lupus erythematosus and islet beta-cell viability and function.

摘要

Decoy receptor 3 (DcR3) is a member of the tumor necrosis factor (TNF) receptor family, and is widely expressed in human normal tissues and malignant tumors. It is a decoy receptor of three TNF family members, i.e., FasL, LIGHT and TL1A. The interaction of DcR3 and its ligands will not transmit signal into cells via DcR3 because DcR3 is a soluble protein without a transmembrane and intracellular segment. Thereby, DcR3 competitively inhibits signaling through three functional receptors, i.e., Fas, HVEM/LTbetaR and DR3.;Interestingly, the DcR3 Tg mice developed a lupus-like syndrome at 6 months of age. They presented a variety of autoantibodies including antinucleus and anti-dsDNA antibodies. They also manifested renal, dermal, hepatic and hematopoietic lesions. Compared to lpr and gld mouse lupus models, DcR3 Tg mice more closely resembled human SLE in terms of Th2-biased immune response and anti-Sm antibody production. Furthermore, we found that DcR3-producing hematopoietic cell were sufficient to cause these pathological changes. Mechanistically, DcR3 may break T-cell homeostasis to interfere with peripheral tolerance, and then induce autoimmunity.;In humans, we detected high DcR3 levels in SLE patient sera. The high DcR3 levels were related to elevated IgE titer in some SLE patients, as was the case in the mouse model. Therefore, DcR3 may represent an important pathogenetic factor of human SLE.;Utilizing the DcR3 Tg mouse, we further elucidated the mechanism by which DcR3 protected islets from primary nonfunction (PNF). Blocking of LIGHT and TL1A signaling by DcR3 are involved in such protection. Moreover, by mRNA microarray we identified possible downstream molecules, which may mediate such protection. We confirmed that Adcyap1 and Bank1 played critical roles in mediating DcR3's effect in islet protection.;In previous studies, we found that DcR3 could modulate immune cell function, and protect islet viability. Herein, we generated DcR3 transgenic (Tg) mice driven by the human beta-actin promoter to further investigate the function of DcR3.;Our studies resolved a puzzle about the relationship between the Fas/FasL apoptosis signaling pathway and the pathogenesis of human SLE. DcR3 can block Fas/FasL pathway even if there is no genetic mutation in Fas and FasL. DcR3 can simultaneously interfere with LIGHT and TL1A signaling to cause a more complex phenotype than the simple Fas or FasL mutation in patients. DcR3 can also be employed as a potential diagnostic parameter for SLE. The discovery of the mechanism of DcR3 in protecting islets allows us to explore novel therapeutic targets to protect islet graft.;Keywords. DcR3; transgenic; systemic lupus erythematosus; islet transplantation; primary nonfunction (PNF).