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Essential role for CCR6 in certain inflammatory diseases demonstrated using specific antagonist and knockin mice
Remy Robert, Caroline Ang, Guizhi Sun, Laurent Juglair, Ee X. Lim, Linda J. Mason, Natalie L. Payne, Claude C.A. Bernard, Charles R. Mackay
Remy Robert, Caroline Ang, Guizhi Sun, Laurent Juglair, Ee X. Lim, Linda J. Mason, Natalie L. Payne, Claude C.A. Bernard, Charles R. Mackay
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Research Article Therapeutics

Essential role for CCR6 in certain inflammatory diseases demonstrated using specific antagonist and knockin mice

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Abstract

The chemokine receptor CCR6 marks subsets of T cells and innate lymphoid cells that produce IL-17 and IL-22, and as such may play a role in the recruitment of these cells to certain inflammatory sites. However, the precise role of CCR6 has been controversial, in part because no effective monoclonal antibody (mAb) inhibitors against this receptor exist for use in mouse models of inflammation. We circumvented this problem using transgenic mice expressing human CCR6 (hCCR6) under control of its native promoter (hCCR6-Tg/mCCR6–/–). We also developed a fully humanized mAb against hCCR6 with antagonistic activity. The expression pattern of hCCR6 in hCCR6-Tg/mCCR6–/– mice was consistent with the pattern observed in humans. In mouse models of experimental autoimmune encephalomyelitis (EAE) and psoriasis, treatment with anti-hCCR6 mAb was remarkably effective in both preventive and therapeutic regimens. For instance, in the imiquimod model of psoriasis, anti-CCR6 completely abolished all signs of inflammation. Moreover, anti-hCCR6 attenuated clinical symptoms of myelin oligodendrocyte glycoprotein–induced (MOG-induced) EAE and reduced infiltration of inflammatory cells in the central nervous system. CCR6 plays a critical role in Th17 type inflammatory reactions, and CCR6 inhibition may offer an alternative approach for the treatment of these lesions.

Authors

Remy Robert, Caroline Ang, Guizhi Sun, Laurent Juglair, Ee X. Lim, Linda J. Mason, Natalie L. Payne, Claude C.A. Bernard, Charles R. Mackay

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Figure 2

Characterization of hCCR6-Tg/mCCR6–/– mice.

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Characterization of hCCR6-Tg/mCCR6–/– mice.
(A) hCCR6-Tg/mCCR6–/– mice w...
(A) hCCR6-Tg/mCCR6–/– mice were constructed using a bacterial artificial chromosome (BAC) encompassing the human CCR6 locus. (B) Purified CD3+ T cells from hCCR6-Tg/mCCR6–/– mice (blue line) or WT mice (red line) show similar chemotactic activity towards the mouse CCL20 ligand. (C) The expression of mCCR6 (clone FAB590A, red line) or hCCR6 (clone G034E3, blue line) on T cells (top panels) or B cells (bottom panels) was compared between WT (left panels), hCCR6-Tg/mCCR6–/– (middle panels), and human peripheral blood mononuclear cells (PBMCs) (right panels). The gray histograms represent the isotype controls.

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