αv Integrin expression by DCs is required for Th17 cell differentiation and development of experimental autoimmune encephalomyelitis in mice
Mridu Acharya, … , Richard O. Hynes, Adam Lacy-Hulbert
Mridu Acharya, … , Richard O. Hynes, Adam Lacy-Hulbert
Published November 22, 2010
Citation Information: J Clin Invest. 2010;120(12):4445-4452. https://doi.org/10.1172/JCI43796.
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Research Article

αv Integrin expression by DCs is required for Th17 cell differentiation and development of experimental autoimmune encephalomyelitis in mice

Abstract

Th17 cells are a distinct lineage of T helper cells that protect the body from bacterial and fungal infection. However, Th17 cells also contribute to inflammatory and autoimmune disorders such as multiple sclerosis. Th17 cell generation requires exposure of naive T cells to the cytokine TGF-β in combination with proinflammatory cytokines. Here we show that differentiation of Th17 cells is also critically dependent on αv integrins. In mice, lack of integrin αv in the immune system resulted in loss of Th17 cells in the intestine and lymphoid tissues. It also led to protection from experimental autoimmune encephalomyelitis (EAE). Further analysis indicated that αv integrins on DCs activated latent TGF-β during T cell stimulation and thereby promoted differentiation of Th17 cells. Furthermore, pharmacologic inhibition of αv integrins using cyclic RGD peptides blocked TGF-β activation and Th17 cell generation in vitro and protected mice from EAE. These data demonstrate that activation of TGF-β by αv-expressing myeloid cells may be a critical step in the generation of Th17 cells and suggest that αv integrins could be therapeutic targets in autoimmune disease.

Authors

Mridu Acharya, Subhankar Mukhopadhyay, Helena Païdassi, Tahseen Jamil, Camille Chow, Stephan Kissler, Lynda M. Stuart, Richard O. Hynes, Adam Lacy-Hulbert

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Figure 3

αv-tie2 mice are protected from EAE.

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αv-tie2 mice are protected from EAE. (A) Percentage of CD4+ T cells that...
(A) Percentage of CD4+ T cells that express IL-17 in spleen and LNs of αv-tie2 and control mice before immunization (day 0) and 10 days after immunization with MOG peptide in CFA (+10). (BD) Percentage of CD4+ cells (B) or IL-17– and IFN-γ–producing cells (C and D) in leukocytes isolated from brain 21 days after immunization. (C) representative FACS data gated on CD4+ cells. (D) Percentage of CD4+ cells that expressed IL-17. (E) Progression of EAE in control and αv-tie2 mice. Similar data were seen in 3 independent experiments. (F and H) IL-17–producing T cells in the brain of αv-CD4 mice (F) and αv-LysM mice (H) 21 days after induction of EAE. (G and I) Development of EAE in control and αv-CD4 mice (G) or αv-LysM mice (I). Similar results were seen in 3 (αv-tie2 data) or 2 (αv-LysM) independent experiments. For all graphs, data are presented as mean ± SEM from at least 4 mice/group. *P < 0.05, Student’s t test.