NADPH oxidase in B cells and macrophages protects against murine lupus by regulation of TLR7
Rachael A. Gordon, Haylee A. Cosgrove, Anthony Marinov, Sebastien Gingras, Jeremy S. Tilstra, Allison M. Campbell, Sheldon I. Bastacky, Michael Kashgarian, Andras Perl, Kevin M. Nickerson, Mark J. Shlomchik
Rachael A. Gordon, Haylee A. Cosgrove, Anthony Marinov, Sebastien Gingras, Jeremy S. Tilstra, Allison M. Campbell, Sheldon I. Bastacky, Michael Kashgarian, Andras Perl, Kevin M. Nickerson, Mark J. Shlomchik
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Research Article

NADPH oxidase in B cells and macrophages protects against murine lupus by regulation of TLR7

Abstract

Loss of NADPH oxidase (NOX2) exacerbates systemic lupus erythematosus (SLE) in mice and humans, but the mechanisms underlying this effect remain unclear. To identify the cell lineages in which NOX2 deficiency drives SLE, we employed conditional KO and chimeric approaches to delete Cybb in several hematopoietic cell lineages of MRL.Faslpr SLE-prone mice. Deletion of Cybb in macrophages/monocytes exacerbated SLE nephritis, though not to the degree observed in the Cybb global KOs. Unexpectedly, the absence of Cybb in B cells resulted in profound glomerulonephritis and interstitial nephritis, rivaling that seen with global deletion. Furthermore, we identified that NOX2 is a key regulator of TLR7, a driver of SLE pathology, both globally and specifically in B cells. This is mediated in part through suppression of TLR7-mediated NF-κB signaling in B cells. Thus, NOX2’s immunomodulatory effect in SLE is orchestrated not only by its function in the myeloid compartment, but through a pivotal role in B cells by selectively inhibiting TLR7 signaling.

Authors

Rachael A. Gordon, Haylee A. Cosgrove, Anthony Marinov, Sebastien Gingras, Jeremy S. Tilstra, Allison M. Campbell, Sheldon I. Bastacky, Michael Kashgarian, Andras Perl, Kevin M. Nickerson, Mark J. Shlomchik

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Figure 1

Hematopoietic Cybb deficiency is sufficient to decrease survival, drive nephritis, and alter the anti-self response in SLE-prone mice.

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Hematopoietic Cybb deficiency is sufficient to decrease survival, drive ...
Bone marrow (BM) chimeras were generated in WT MRL.Faslpr recipients with either Cybb-sufficient or -deficient BM. (A) Kaplan-Meier survival curves for female MRL.Faslpr BM chimeras reconstituted with BM of indicated genotypes. A log-rank test was used to determine statistical significance (donor genotype: controls n = 8; Cybb–/– n = 7 mice per group). (B) Proteinuria scores (donor genotype: control males n = 40; Cybb–/Y males n = 30; control females n = 25; Cybb–/– females n = 24). (C) Glomerulonephritis scores, (D) interstitial nephritis scores, and (E) spleen weight (donor genotype: control males n = 40; Cybb–/Y males n = 33; control females n = 26; Cybb–/– females n = 24). (FH) Serum anti-nucleosome (F), anti-Sm (G), and anti-RNA (H) antibody titers (donor genotype: control males n = 42; Cybb–/Y males n = 34; control females n = 27; Cybb–/– females n = 25). Disease parameters are represented as a function of Cybb donor genotype. MRL.Faslpr chimeras were evaluated 16–18 weeks after irradiation. Bars represent the median ± interquartile range (IQR). A Mann-Whitney U test was performed to determine statistical significance within each sex unless otherwise indicated. A Fisher’s exact test was performed to determine statistical significance for anti-Sm titers in MRL.Faslpr mice. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.