Fueling autoimmunity: type I interferon in autoimmune diseases

J Di Domizio, W Cao - Expert review of clinical immunology, 2013 - Taylor & Francis
J Di Domizio, W Cao
Expert review of clinical immunology, 2013Taylor & Francis
In recent years, active research using genomic, cellular and animal modeling approaches
has revealed the fundamental forces driving the development of autoimmune diseases.
Type I interferon imprints unique molecular signatures in a list of autoimmune diseases.
Interferon is induced by diverse nucleic acid-containing complexes, which trigger innate
immune activation of plasmacytoid dendritic cells. Interferon primes, activates or
differentiates various leukocyte populations to promote autoimmunity. Accordingly, interferon …
In recent years, active research using genomic, cellular and animal modeling approaches has revealed the fundamental forces driving the development of autoimmune diseases. Type I interferon imprints unique molecular signatures in a list of autoimmune diseases. Interferon is induced by diverse nucleic acid-containing complexes, which trigger innate immune activation of plasmacytoid dendritic cells. Interferon primes, activates or differentiates various leukocyte populations to promote autoimmunity. Accordingly, interferon signaling is essential for the initiation and/or progression of lupus in several experimental models. However, the heterogeneous nature of systemic lupus erythematosus requires better characterization on how interferon pathways are activated and subsequently promote the advancement of autoimmune diseases. Given the central role of type I interferon, various strategies are devised to target these cytokines or related pathways to curtail the progression of autoimmune diseases.
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