Abstract
Systemic Lupus Erythematosus (SLE) is a chronic autoimmune disease representing a serious unmet medical need. The disease is associated with the loss of self-tolerance and exaggerated B cell activation, resulting in autoantibody production and the formation of immune complexes that accumulate in the kidney, causing glomerulonephritis. TLR7, an important mediator of the innate immune response, drives the expression of type-1 interferon (IFN), which leads to expression of type-1 IFN induced genes and aggravates lupus pathology. Because the lysosomal peptide symporter slc15a4 is critically required for type-1 interferon production by pDC, and for certain B cell functions in response to TLR7 and TLR9 signals, we considered it as a potential target for pharmacological intervention in SLE. We deleted the slc15a4 gene in C57BL/6, NZB, and NZW mice and found that pristane-challenged slc15a4-/- mice in the C57BL/6 background and lupus prone slc15a4-/- NZB/W F1 mice were both completely protected from lupus like disease. In the NZB/W F1 model, protection persisted even when disease development was accelerated with an adenovirus encoding IFNα, emphasizing a broad role of slc15a4 in disease initiation. Our results establish a non-redundant function of slc15a4 in regulating both innate and adaptive components of the immune response in SLE pathobiology and suggest that it may be an attractive drug target.
Highlights
Systemic Lupus Erythematosus (SLE) is a chronic autoimmune disease characterized by multiorgan inflammation [1] with complex pathophysiology that involves both genetic risk factors and environmental triggers [2]
SLC15a4 is known to be essential for TLR7 and TLR9 dependent secretion of IFNα by plasmacytoid dendritic cells (pDC) and for inflammatory cytokine production by B cells
We show that slc15a4 regulates TLR7/9 responses in these two cell types, but is partially required for secretion of proinflammatory cytokines by myeloid dendritic cells
Summary
Systemic Lupus Erythematosus (SLE) is a chronic autoimmune disease characterized by multiorgan inflammation [1] with complex pathophysiology that involves both genetic risk factors and environmental triggers [2]. A BAFF blocking antibody that impacts B cell survival, differentiation, and auto-antibody production [10], led to a significant reduction of the SELENA-SLEDAI score and represents the only new lupus medicine that has been approved in the last 50 years [11, 12] Another B cell targeting therapy, the CD20 targeting antibody rituximab, did not achieve statistically significant improvement in two clinical trials [13, 14], it is used to treat the disease off-label [15], based in part on demonstration of potent therapeutic effects in a non-registrational trial [16]. Based on existing human clinical data, a molecular target that impinges on the IFNα pathway and affects B cells directly might be highly desirable therapeutic opportunity for this intractable disease
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