CCR6-deficient mice have impaired leukocyte homeostasis and altered contact hypersensitivity and delayed-type hypersensitivity responses
Rosa Varona, … , Carlos Martínez-A., Gabriel Márquez
Rosa Varona, … , Carlos Martínez-A., Gabriel Márquez
Published March 15, 2001
Citation Information: J Clin Invest. 2001;107(6):R37-R45. https://doi.org/10.1172/JCI11297.
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CCR6-deficient mice have impaired leukocyte homeostasis and altered contact hypersensitivity and delayed-type hypersensitivity responses

Abstract

CCR6 expression in dendritic, T, and B cells suggests that this β-chemokine receptor may regulate the migration and recruitment of antigen-presenting and immunocompetent cells during inflammatory and immunological responses. Here we demonstrate that CCR6–/– mice have underdeveloped Peyer’s patches, in which the myeloid CD11b+ CD11c+ dendritic-cell subset is not present in the subepithelial dome. CCR6–/– mice also have increased numbers in T-cell subpopulations within the intestinal mucosa. In 2,4-dinitrofluorobenzene–induced contact hypersensitivity (CHS) studies, CCR6–/– mice developed more severe and more persistent inflammation than wild-type (WT) animals. Conversely, in a delayed-type hypersensitivity (DTH) model induced with allogeneic splenocytes, CCR6–/– mice developed no inflammatory response. The altered responses seen in the CHS and DTH assays suggest the existence of a defect in the activation and/or migration of the CD4+ T-cell subsets that downregulate or elicit the inflammation response, respectively. These findings underscore the role of CCR6 in cutaneous and intestinal immunity and the utility of CCR6–/– mice as a model to study pathologies in these tissues.

Authors

Rosa Varona, Ricardo Villares, Laura Carramolino, Íñigo Goya, Ángel Zaballos, Julio Gutiérrez, Miguel Torres, Carlos Martínez-A., Gabriel Márquez

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CCR6–/– mice have underdeveloped PPs and impaired lymphocyte homeostasis...
CCR6–/– mice have underdeveloped PPs and impaired lymphocyte homeostasis in the intestinal mucosa. (a) Low-magnification micrography of dissected PPs from 4-month-old WT (CCR6+/+) and CCR6–/– mice showing the different level of development of these lymphoid organs. (b) The number of PPs is similar in WT (CCR6+/+) and CCR6–/– mice. Data shown correspond to the average number found in ten animals of each genotype. (c) The number of developed follicles per patch and the number of PPs with a given developmental state differ in CCR6–/– mice (filled bars) from those of WT animals (open bars). Accumulated data are presented from ten animals per group. (d) Flow-cytometry analysis of lymphocyte subsets in PPs of WT (open bars) and CCR6–/– mice (filled bars). (e) The cell numbers in IEL subpopulations are increased in CCR6–/– mice (n = 2–3 pooled animals of each genotype in each experiment). Data shown in d and e correspond to the mean and SE from five independent experiments.