Abstract

IL-6 is required for the response of mice against Listeria monocytogenes. Control of infection depends on classical IL-6 signaling via membrane IL-6Rα, but IL-6 target cells and protective mechanisms remain unclear. We used mice with IL-6Rα-deficiency in T cells (Il6rafl/fl×CD4cre) or myeloid cells (Il6rafl/fl×LysMcre) to define the role of these cells in IL-6-mediated protection. Abrogation of IL-6Rα in T cells did not interfere with bacteria control and induction of TH1 and CD8+ T-cell responses. IL-6Rα-deficiency in myeloid cells caused significant defects in listeria control. This defect was not associated with reduced recruitment of granulocytes and inflammatory monocytes, and both cell populations were activated and not impaired in cytokine production. However, IL-6Rα-deficient inflammatory monocytes displayed diminished expression of IL-4Rα and of CD38, a protein required for phagocytosis and innate control of listeria. In vitro studies revealed that IL-4 and IL-6 cooperated in induction of CD38. In listeria-infected mice, phagocytic activity of inflammatory monocytes correlated with CD38 expression levels on cells and inflammatory monocytes of Il6rafl/fl×LysMcre mice were significantly impaired in phagocytosis. In conclusion, we demonstrate that inhibition of classical IL-6 signaling in myeloid cells causes alterations in differentiation and function of these cells, which subsequently prevent effective control of L. monocytogenes.

Highlights

  • The cytokine IL-6 has both pro- and anti-inflammatory activities in the immune system [1]

  • Classical IL-6 signaling in T cells is not required for the control of Listeria monocytogenes

  • In a first set of experiments, we used Il6rafl/fl×CD4cre and control mice (CD4cre) mice to test the role of classical IL-6 signaling in T cells in the control of L. monocytogenes

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Summary

Introduction

The cytokine IL-6 has both pro- and anti-inflammatory activities in the immune system [1]. IL-6 controls neutrophil maturation and recruitment to sites of infection [2]. IL-6 regulates differentiation through upregulation of macrophage colony-stimulating factor receptor (M-CSFR) [3]. It induces IL-4Rα expression and supports formation of alternatively activated macrophages [4, 5]. IL-6 is a central driver of the acute phase response. IL-6 is likewise involved in the adaptive response.

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