Nonhematopoietic IRAK1 drives arthritis via neutrophil chemoattractants
Thomas Hoyler, Bettina Bannert, Cédric André, Damian Beck, Thomas Boulay, David Buffet, Nadja Caesar, Thomas Calzascia, Janet Dawson, Diego Kyburz, Robert Hennze, Christine Huppertz, Amanda Littlewood-Evans, Pius Loetscher, Kirsten D. Mertz, Satoru Niwa, Gautier Robert, James S. Rush, Giulia Ruzzante, Sophie Sarret, Thomas Stein, Ismahane Touil, Grazyna Wieczorek, Geraldine Zipfel, Stuart Hawtin, Tobias Junt
Thomas Hoyler, Bettina Bannert, Cédric André, Damian Beck, Thomas Boulay, David Buffet, Nadja Caesar, Thomas Calzascia, Janet Dawson, Diego Kyburz, Robert Hennze, Christine Huppertz, Amanda Littlewood-Evans, Pius Loetscher, Kirsten D. Mertz, Satoru Niwa, Gautier Robert, James S. Rush, Giulia Ruzzante, Sophie Sarret, Thomas Stein, Ismahane Touil, Grazyna Wieczorek, Geraldine Zipfel, Stuart Hawtin, Tobias Junt
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Research Article

Nonhematopoietic IRAK1 drives arthritis via neutrophil chemoattractants

Abstract

IL-1 receptor-activated kinase 1 (IRAK1) is involved in signal transduction downstream of many TLRs and the IL-1R. Its potential as a drug target for chronic inflammatory diseases is underappreciated. To study its functional role in joint inflammation, we generated a mouse model expressing a functionally inactive IRAK1 (IRAK1 kinase deficient, IRAK1KD), which also displayed reduced IRAK1 protein expression and cell type–specific deficiencies of TLR signaling. The serum transfer model of arthritis revealed a potentially novel role of IRAK1 for disease development and neutrophil chemoattraction exclusively via its activity in nonhematopoietic cells. Consistently, IRAK1KD synovial fibroblasts showed reduced secretion of neutrophil chemoattractant chemokines following stimulation with IL-1β or human synovial fluids from patients with rheumatoid arthritis (RA) and gout. Together with patients with RA showing prominent IRAK1 expression in fibroblasts of the synovial lining, these data suggest that targeting IRAK1 may be therapeutically beneficial. As pharmacological inhibition of IRAK1 kinase activity had only mild effects on synovial fibroblasts from mice and patients with RA, targeted degradation of IRAK1 may be the preferred pharmacologic modality. Collectively, these data position IRAK1 as a central regulator of the IL-1β–dependent local inflammatory milieu of the joints and a potential therapeutic target for inflammatory arthritis.

Authors

Thomas Hoyler, Bettina Bannert, Cédric André, Damian Beck, Thomas Boulay, David Buffet, Nadja Caesar, Thomas Calzascia, Janet Dawson, Diego Kyburz, Robert Hennze, Christine Huppertz, Amanda Littlewood-Evans, Pius Loetscher, Kirsten D. Mertz, Satoru Niwa, Gautier Robert, James S. Rush, Giulia Ruzzante, Sophie Sarret, Thomas Stein, Ismahane Touil, Grazyna Wieczorek, Geraldine Zipfel, Stuart Hawtin, Tobias Junt

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Figure 3

K/BxN arthritis depends on IRAK1-dependent neutrophil recruitment to joints.

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K/BxN arthritis depends on IRAK1-dependent neutrophil recruitment to joi...
(A) Clinical scores. Data points represent means ± SEM of n = 6 mice per group. (B) Representative histology of WT and IRAK1KD joints on day 7. Scale bar: H&E, 500 μm; Safranin O, 300 μm; F4/80 and Ly-6B2, 50 μm. (C) Neutrophil numbers and MPO expression in ankle joints, means ± SD. (D and E) Cytokine levels in paw homogenates, means ± SD. Data in AE are representative of 2 independent experiments. (F) Monocytes (Mono) or neutrophils (PMN) were isolated from inflamed joints or spleens from WT and IRAK1KD animals at day 4 and analyzed for Il1b and Cxcl2 expression, means ± SD. Pooled data from 3 experiments. (G) Clinical scores in neutrophil-depleted (1A8) or isotype-treated animals. Data points represent means ± SEM of n = 4 mice per group. (H) Levels of CXCL1 and CXCL5 in paw homogenates at day 4, means ± SD. (I) Neutrophil and monocyte numbers in ankle joints at day 4, means ± SD. Data in GI are representative of 2 independent experiments. Data points in CF, H, and I represent individual mice. Paired t test (A and G), unpaired t test (CE, H, I), 1-way ANOVA, Bonferroni’s posttest (F). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.