Abstract
The association between C1q deficiency and the development of Systemic Lupus Erythematosus (SLE) is well established. Several studies have shown that deficiency in C1q is associated with failed apoptotic cleanup, leading to SLE progression. However, the magnitude of this correlation indicates that C1q may play a much more complex role in the development of lupus. This study provides further insight into the pathogenesis of SLE by investigating the consequences of the interaction between C1q and CD4+ T-cells in the breakdown of self-tolerance. Since the C1q/C1q receptor interaction is postulated to play a role, we first confirmed the presence of surface-expressed C1q and C1q receptors on CD4+ T-cells. Then, cell proliferation assays were performed in the presence and absence of purified C1q, gC1qR, and cC1qR. The supernatants of these cultures were used to determine the levels of immunoregulatory cytokines released. Our data confirm that increasing concentrations of C1q and gC1qR significantly inhibited cell proliferation. Furthermore, the CD4+ cells treated with either C1q or gC1qR secreted reduced inflammatory cytokines, such as IL-6 and TNF-alpha, compared to the untreated controls, suggesting that C1q deficiency facilitates the uncontrolled secretion of these critical cytokines, thus contributing to SLE. Although the role of pro-inflammatory cytokines in the induction of SLE is well documented, the mechanism by which C1q contributes to the disease is still a study in progress. Our data demonstrate that the interaction between C1q and its receptors on CD4+ T cells plays a critical role in the suppression of pro-inflammatory cytokines that cause tissue injury in SLE. Therefore, the C1q-C1qR axis may provide a rationally sound target for the design of novel therapeutic approaches for SLE treatment.