Novel and potential future therapeutic options in systemic autoimmune diseases.

Autoimmune inflammation is caused by the loss of tolerance to specific self-antigens and can result in organ-specific or systemic disorders. Systemic autoimmune diseases affect a significant portion of the population with an increasing rate of incidence, which means that is essential to have effective therapies to control these chronic disorders. Unfortunately, several patients with systemic autoimmune diseases do not respond at all or just partially respond to available conventional synthetic disease-modifying antirheumatic drugs and targeted therapies. However, during the past few years, some new medications have been approved and can be used in real-life clinical settings. Meanwhile, several new candidates appeared and can offer promising novel treatment options in the future. Here, we summarize the newly available medications and the most encouraging drug candidates in the treatment of systemic lupus erythematosus, rheumatoid arthritis, Sjögren's disease, systemic sclerosis, systemic vasculitis, and autoimmune myositis.

The selective inhibition of the Syk tyrosine kinase ameliorates experimental autoimmune arthritis.

Autoimmune arthritis - such as rheumatoid arthritis - affect a significant proportion of the population, which can cause everyday joint pain, decreased mobility and reduced quality of life. Despite having more and more therapeutic options available, there are still a lot of patients who cannot reach remission or low disease activity by current therapies. This causes an urgent need for the development of new treatment options. The Syk tyrosine kinase plays an essential role in B cell receptor, Fc receptor and integrin signaling. It has been shown that the hematopoietic cell-specific deletion of Syk resulted in a complete protection against autoantibody-induced experimental arthritis. This prompted us to test the effect of entospletinib, a second generation, Syk-selective inhibitor, which has a tolerable safety profile according to hematological clinical trials, in experimental autoimmune arthritis. We found that entospletinib dose-dependently decreased the macroscopic signs of joint inflammation, while it did not affect the health status of the animals. In line with these findings, local neutrophil accumulation and cytokine levels were reduced compared to the vehicle-treated group, while macrophage accumulation and synovial fibroblast numbers were not significantly altered. Meanwhile, entospletinib dose-dependently decreased the cell responses of immune complex- or integrin ligand-activated neutrophils. Overall, we found that selective Syk inhibition by entospletinib reduced the activity of autoantibody-induced experimental arthritis, which seems to be based mainly on the effect of the inhibitor on neutrophil functions. Our data raise the possibility that entospletinib could be a good drug candidate in the treatment of human autoimmune arthritis.

Neutrophil-Specific Syk Expression Is Crucial for Skin Disease in Experimental Epidermolysis Bullosa Acquisita.

Autoantibodies against the dermal-epidermal junction component type VII collagen (C7) trigger skin disease in the inflammatory form of epidermolysis bullosa acquisita. We have previously identified the Syk tyrosine kinase as a crucial participant in anti-C7 antibody-induced experimental epidermolysis bullosa acquisita. However, it is still unclear which cellular lineage needs to express Syk during the disease process. In this study, we show that the loss of Syk, specifically from neutrophils, results in complete protection from the anti-C7 antibody-initiated skin disease both macroscopically and microscopically. Mice with a neutrophil-specific Syk deletion had decreased neutrophil accumulation and abrogated CXCL2 and IL-1ß levels in the skin upon anti-C7 treatment, whereas isolated Syk-deficient neutrophils had decreased superoxide release, cell spreading, and cytokine release on C7-anti-C7 immune complex surfaces. Entospletinib and lanraplenib, two second-generation Syk-specific inhibitors, effectively abrogated immune complex-induced responses of human neutrophils and decreased the anti-C7 antibody-initiated, neutrophil-mediated ex vivo dermal-epidermal separation in human skin samples. Taken together, these results point to a crucial role for Syk in neutrophils in the development and progression of epidermolysis bullosa acquisita and suggest Syk inhibition as a potential therapeutic strategy.