Abnormal innate immune response is a prominent feature underlying autoimmune diseases. One emerging factor driving dysregulated immune activation is cytosolic mitochondrial double-stranded RNAs (mt-dsRNAs). However, the mechanism by which mt-dsRNAs stimulate immune responses remains poorly understood. Here, we discover SRA stem-loop-interacting RNA-binding protein (SLIRP) as an amplifier of mt-dsRNA-triggered antiviral signals. In autoimmune diseases, SLIRP is commonly upregulated, and the targeted knockdown of SLIRP dampens the interferon response. We find that the activation of melanoma differentiation-associated gene 5 (MDA5) by exogenous dsRNAs upregulates SLIRP, which then stabilizes mt-dsRNAs and elevates their cytosolic levels to activate MDA5 further, augmenting the interferon response. Furthermore, the downregulation of SLIRP partially rescues the abnormal interferon-stimulated gene expression in primary cells of patients with autoimmune disease and makes cells vulnerable to certain viral infections. Our study unveils SLIRP as a pivotal mediator of the interferon response through positive feedback amplification of antiviral signaling via mt-dsRNAs.
Keywords: CP: Immunology; CP: Molecular biology; SLIRP; Sjögren’s disease; antiviral signaling; autoimmune disease; double-stranded RNAs; innate immune response; interferon response; mitochondrial RNAs; mitochondrial-nuclear communication; viral infection.
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