Abstract
STING-associated vasculopathy with onset in infancy (SAVI) is a type I interferonopathy caused by gain-of-function mutations in STING1 encoding stimulator of interferon genes (STING) protein. SAVI is characterized by severe inflammatory lung disease, a feature not observed in previously described type I interferonopathies i.e., Mendelian autoinflammatory disorders defined by constitutive activation of the type I interferon (IFN) pathway. Molecular defects in nucleic acid metabolism or sensing are central to the pathophysiology of these diseases, with such defects occurring at any step of the tightly regulated pathway of type I IFN production and signaling (e.g., exonuclease loss of function, RNA-DNA hybrid accumulation, constitutive activation of adaptor proteins such as STING). Among over 30 genotypes, SAVI and COPA syndrome, whose pathophysiology was recently linked to a constitutive activation of STING signaling, are the only type I interferonopathies presenting with predominant lung involvement. Lung disease is the leading cause of morbidity and mortality in these two disorders which do not respond to conventional immunosuppressive therapies and only partially to JAK1/2 inhibitors. In human silicosis, STING-dependent sensing of self-DNA following cell death triggered by silica exposure has been found to drive lung inflammation in mice and human models. These recent findings support a key role for STING and nucleic acid sensing in the homeostasis of intrinsic pulmonary inflammation. However, mechanisms by which monogenic defects in the STING pathway lead to pulmonary damages are not yet fully elucidated, and an improved understanding of such mechanisms is fundamental to improved future patient management. Here, we review the recent insights into the pathophysiology of SAVI and outline our current understanding of self-nucleic acid-mediated lung inflammation in humans.
Highlights
Type I interferonopathies are a sub-group of Mendelian autoinflammatory diseases characterized by an overactivation of the type I interferon (IFN) pathway [1]
The description of an inflammatory lung disease caused by monogenic mutations in STING1 opened the field of nucleic acid sensing and stimulator of interferon genes (STING) homeostasis in lung pathology
We propose here a review of what is known about pulmonary involvement in STING-associated vasculopathy with onset in infancy (SAVI), what remains to be understood, and how improvement of our knowledge about STING gain-of-function pathogenesis in lung disease can be relevant for other human pathologies
Summary
Type I interferonopathies are a sub-group of Mendelian autoinflammatory diseases characterized by an overactivation of the type I interferon (IFN) pathway [1]. STING1 gain-of-function mutations enhanced type I IFN pathway activation and treatment of lymphocytes from SAVI patients with JAK1/2 inhibitors reduced the constitutive phosphorylation of STAT1 [9], thereby defining SAVI as a novel type I interferonopathy. The description of an inflammatory lung disease caused by monogenic mutations in STING1 opened the field of nucleic acid sensing and STING homeostasis in lung pathology. Mutant COPA induced accumulation of STING to the Golgi and overaction of the type I IFN pathway. These recent findings highlight the role of COPA in preventing chronic immune activation through STING [7,26,27]
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