Suk See De Ravin scite author profile

Neutrophil extracellular traps (NETs) are implicated in autoimmunity but how they are generated and their roles in sterile inflammation remain unclear. Ribonucleoprotein immune complexes, inducers of NETosis, require mitochondrial ROS for maximal NET stimulation. During this process, mitochondria become hypopolarized and translocate to the cell surface. Extracellular release of oxidized mitochondrial DNA is proinflammatory in vitro and, when injected into mice, stimulates type-I interferon (IFN) signaling through a pathway dependent on the DNA sensor, STING. Mitochondrial ROS is also necessary for spontaneous NETosis of low-density granulocytes from individuals with systemic lupus erythematosus (SLE). This was also observed in individuals with chronic granulomatous disease (CGD), which lack NADPH-oxidase activity, but still develop autoimmunity and type I-IFN signatures. Mitochondrial ROS inhibition in vivo reduces disease severity and type-I IFN responses in a mouse model of lupus. These findings highlight a role for mitochondria in the generation not only of NETs but also of pro-inflammatory oxidized mitochondrial DNA in autoimmune diseases.

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Residual NADPH Oxidase and Survival in Chronic Granulomatous Disease

Kuhns

et al. 2010

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Background-Failure to generate phagocyte-derived superoxide and related reactive oxygen intermediates (ROIs) is the major defect in chronic granulomatous disease, causing recurrent infections and granulomatous complications. Chronic granulomatous disease is caused by missense, nonsense, frameshift, splice, or deletion mutations in the genes for p22 phox , p40 phox , p47 phox , p67 phox (autosomal chronic granulomatous disease), or gp91 phox (X-linked chronic granulomatous disease), which result in variable production of neutrophil-derived ROIs. We hypothesized that residual ROI production might be linked to survival in patients with chronic granulomatous disease.

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Common Severe Infections in Chronic Granulomatous Disease

Marciano

Spalding

Fitzgerald

et al. 2014

Clinical Infectious Diseases

349

310

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Lentiviral hematopoietic stem cell gene therapy for X-linked severe combined immunodeficiency

et al. 2016

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X-linked severe combined immunodeficiency (SCID-X1) is a profound deficiency of T, B, and natural killer (NK) cell immunity caused by mutations in IL2RG encoding the common chain (γc) of several interleukin receptors. Gamma-retroviral (γRV) gene therapy of SCID-X1 infants without conditioning restores T cell immunity without B or NK cell correction, but similar treatment fails in older SCID-X1 children. We used a lentiviral gene therapy approach to treat five SCID-X1 patients with persistent immune dysfunction despite haploidentical hematopoietic stem cell (HSC) transplant in infancy. Follow-up data from two older patients demonstrate that lentiviral vector γc transduced autologous HSC gene therapy after nonmyeloablative busulfan conditioning achieves selective expansion of gene-marked T, NK, and B cells, which is associated with sustained restoration of humoral responses to immunization and clinical improvement at 2 to 3 years after treatment. Similar gene marking levels have been achieved in three younger patients, albeit with only 6 to 9 months of follow-up. Lentiviral gene therapy with reduced-intensity conditioning appears safe and can restore humoral immune function to posthaploidentical transplant older patients with SCID-X1.

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Suk See De Ravin

Neutrophil extracellular traps enriched in oxidized mitochondrial DNA are interferogenic and contribute to lupus-like disease

Residual NADPH Oxidase and Survival in Chronic Granulomatous Disease

Common Severe Infections in Chronic Granulomatous Disease

Lentiviral hematopoietic stem cell gene therapy for X-linked severe combined immunodeficiency

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