Monoallelic IRF5 deficiency in B cells prevents murine lupus
Alex Pellerin, Kei Yasuda, Abraham Cohen-Bucay, Vanessa Sandra, Prachi Shukla, Barry K. Horne Jr, Kerstin Nündel, Gregory A. Viglianti, Yao Xie, Ulf Klein, Ying Tan, Ramon G. Bonegio, Ian R. Rifkin
Alex Pellerin, Kei Yasuda, Abraham Cohen-Bucay, Vanessa Sandra, Prachi Shukla, Barry K. Horne Jr, Kerstin Nündel, Gregory A. Viglianti, Yao Xie, Ulf Klein, Ying Tan, Ramon G. Bonegio, Ian R. Rifkin
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Research Article

Monoallelic IRF5 deficiency in B cells prevents murine lupus

Abstract

Gain-of-function polymorphisms in the transcription factor IFN regulatory factor 5 (IRF5) are associated with an increased risk of developing systemic lupus erythematosus. However, the IRF5-expressing cell type(s) responsible for lupus pathogenesis in vivo is not known. We now show that monoallelic IRF5 deficiency in B cells markedly reduced disease in a murine lupus model. In contrast, similar reduction of IRF5 expression in macrophages, monocytes, and neutrophils did not reduce disease severity. B cell receptor and TLR7 signaling synergized to promote IRF5 phosphorylation and increase IRF5 protein expression, with these processes being independently regulated. This synergy increased B cell–intrinsic IL-6 and TNF-α production, both key requirements for germinal center (GC) responses, with IL-6 and TNF-α production in vitro and in vivo being substantially lower with loss of 1 allele of IRF5. Mechanistically, TLR7-dependent IRF5 nuclear translocation was reduced in B cells from IRF5-heterozygous mice. In addition, we show in multiple lupus models that IRF5 expression was dynamically regulated in vivo with increased expression in GC B cells compared with non-GC B cells and with further sequential increases during progression to plasmablasts and long-lived plasma cells. Overall, a critical threshold level of IRF5 in B cells was required to promote disease in murine lupus.

Authors

Alex Pellerin, Kei Yasuda, Abraham Cohen-Bucay, Vanessa Sandra, Prachi Shukla, Barry K. Horne Jr, Kerstin Nündel, Gregory A. Viglianti, Yao Xie, Ulf Klein, Ying Tan, Ramon G. Bonegio, Ian R. Rifkin

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Figure 1

B cell–specific reduction of IRF5 expression in IRF5ΔB mice.

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B cell–specific reduction of IRF5 expression in IRF5ΔB mice. All analyse...
All analyses were done in 8- to 10-week-old FcγRIIB−/−Yaa mice. (A) Representative Western blot of IRF5 protein expression in sorted splenic B cells (CD19+) and myeloid cells (CD11b+Ly6G) from IRF5F/+ and IRF5ΔB mice. All lanes were run on the same gel but were noncontiguous. (B) Expression of IRF5 in B cells and myeloid cells from IRF5ΔB mice normalized to IRF5F/+ (n = 4). Data were analyzed using 2-tailed, unpaired Welch’s t test; **P < 0.01. (C) Representative flow cytometry plots of intracellular IRF5 expression in CD19+ B cells, CD11b+Ly6C+ monocytes, CD11b+Ly6G+ neutrophils, and CD11bPDCA1+Ly6C+ pDCs from IRF5F/+, IRF5ΔB, and IRF5–/– global knockout mice. (D) MFI values of IRF5 in B cells, monocytes, neutrophils, and pDCs from IRF5F/+ and IRF5ΔB mice (representative experiment of 3 individual experiments, n = 2 for each genotype). (E) IRF5 expression in B cells, monocytes, neutrophils, and pDCs from IRF5ΔB mice normalized to the IRF5F/+ littermate control in each experiment (n = 6). Data are shown as mean ± SEM and were analyzed using 1-way ANOVA with Tukey’s post hoc test; ****P < 0.0001. IRF5, IFN regulatory factor 5; pDCs, plasmacytoid DCs.