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Andrew Scott Nelson, Massimo Maddaloni, Carol Hoffman, Jeffrey Abbott, David W Pascual, Establishment of a Regulatory Microenvironment by Lactococcus Expressing Colonization Factor Antigen I (CFA/I) Fimbriae Ameliorates Type 1 Diabetes (T1D) in Non-Obese Diabetic (NOD) Mice, The Journal of Immunology, Volume 198, Issue Supplement_1, May 2017, Page 199.8, https://doi.org/10.4049/jimmunol.198.Supp.199.8
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Abstract
Oral treatment with the adhesin from enterotoxigenic E. coli, CFA/I fimbriae protect in murine models of multiple sclerosis and rheumatoid arthritis. Although CFA/I fimbriae initial mode of action is in a bystander or in an antigen (Ag)-independent fashion, protection was found to be ultimately dependent upon the induction and/or activation of auto-Ag-specific regulatory T cells (Tregs). Our recent findings show that oral dosing with a L. lactis vector expressing CFA/I fimbriae (LL-CFA/I) reduces incidence of T1D in NOD mice by 45% with a concomitant 8-fold increase in their splenic Foxp3+CD25+ Tregs. However, little is known about how protection transitions from bystander suppression to Ag-specific Tregs. We hypothesized that LL-CFA/I stimulates dendritic cells (DCs) to establish a regulatory microenvironment since DCs play an integral role in fate decisions for T cells becoming inflammatory or tolerogenic. In this study, 4 wk-old NOD mice were orally dosed with LL-CFA/I and treated every 2 wks; control groups were given L. lactis vector or PBS. At 11 wks of age, frequency of insulitis was reduced by more than half, and insulin-specific T cells were reduced in the pancreatic lymph nodes (PaLNs; P < 0.05). To discern how this was mediated, groups of mice were examined at 3, 7, 14, and 21 days post-treatment for changes in DC and T cell phenotypes. As early as 3 days post-treatment, DCs exhibited significantly less expression of costimulatory molecules, CD40 and CD86, and stably maintained this phenotype for at least 7 wks. Splenic DCs showed reduced IL-6 production. These data show that orally dosing with LL-CFA/I ameliorates T1D in NOD mice by establishing a regulatory microenvironment via DCs. Work is supported by AI121745.
