B cell–intrinsic TLR9 expression is protective in murine lupus
Jeremy S. Tilstra, Shinu John, Rachael A. Gordon, Claire Leibler, Michael Kashgarian, Sheldon Bastacky, Kevin M. Nickerson, Mark J. Shlomchik
Jeremy S. Tilstra, Shinu John, Rachael A. Gordon, Claire Leibler, Michael Kashgarian, Sheldon Bastacky, Kevin M. Nickerson, Mark J. Shlomchik
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Research Article Autoimmunity

B cell–intrinsic TLR9 expression is protective in murine lupus

Abstract

Toll-like receptor 9 (TLR9) is a regulator of disease pathogenesis in systemic lupus erythematosus (SLE). Why TLR9 represses disease while TLR7 and MyD88 have the opposite effect remains undefined. To begin to address this question, we created 2 alleles to manipulate TLR9 expression, allowing for either selective deletion or overexpression. We used these to test cell type–specific effects of Tlr9 expression on the regulation of SLE pathogenesis. Notably, Tlr9 deficiency in B cells was sufficient to exacerbate nephritis while extinguishing anti–nucleosome antibodies, whereas Tlr9 deficiency in dendritic cells (DCs), plasmacytoid DCs, and neutrophils had no discernable effect on disease. Thus, B cell–specific Tlr9 deficiency unlinked disease from autoantibody production. Critically, B cell–specific Tlr9 overexpression resulted in ameliorated nephritis, opposite of the effect of deleting Tlr9. Our findings highlight the nonredundant role of B cell–expressed TLR9 in regulating lupus and suggest therapeutic potential in modulating and perhaps even enhancing TLR9 signals in B cells.

Authors

Jeremy S. Tilstra, Shinu John, Rachael A. Gordon, Claire Leibler, Michael Kashgarian, Sheldon Bastacky, Kevin M. Nickerson, Mark J. Shlomchik

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Figure 7

B cell–specific overexpression of Tlr9 results in ameliorated renal disease and altered antibody profile in MRL/lpr mice.

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B cell–specific overexpression of Tlr9 results in ameliorated renal dise...
CD19-Cre RosaTlr9 MRL/lpr and Cre-negative RosaTlr9 MRL/lpr controls were aged until 19 weeks (female) and 21 weeks (male). Phenotypic markers were assessed, including (A) proteinuria, (B) dermatitis, (C) glomerular renal disease, and (D) interstitial and perivascular renal infiltrates, with (E) representative images of H&E kidney sections from mice of indicated genotypes, where black arrowheads denote interstitial inflammation and white arrows show glomeruli. Original magnification ×200. Additionally, (F) spleen weight and (G) lymph node weight were assessed as markers of lymphoproliferation. Serum concentrations of (H) anti–nucleosome, (I) anti–RNA antibody formation, and (J) ratio of anti–nucleosome/anti–RNA antibodies of RosaTlr9 controls (n = 45) and CD19-Cre RosaTlr9 (n = 46). Scatter plots display data from individual mice with black lines showing median values. *P < 0.05; **P < 0.01; ***P < 0.001, 1-tailed Mann-Whitney U test.