TY - JOUR
T1 - Th1/Th17 plasticity is a marker of advanced β cell autoimmunity and impaired glucose tolerance in humans
AU - Reinert-Hartwall, Linnea
AU - Honkanen, Jarno
AU - Salo, Harri M
AU - Nieminen, Janne K
AU - Luopajärvi, Kristiina
AU - Härkönen, Taina
AU - Veijola, Riitta
AU - Simell, Olli
AU - Ilonen, Jorma
AU - Peet, Aleksandr
AU - Tillmann, Vallo
AU - Knip, Mikael
AU - Vaarala, Outi
AU - DIABIMMUNE Study Group
AU - Harmsen, Hermanus
N1 - Copyright © 2014 by The American Association of Immunologists, Inc.
PY - 2015/1/1
Y1 - 2015/1/1
N2 - Upregulation of IL-17 immunity and detrimental effects of IL-17 on human islets have been implicated in human type 1 diabetes. In animal models, the plasticity of Th1/Th17 cells contributes to the development of autoimmune diabetes. In this study, we demonstrate that the upregulation of the IL-17 pathway and Th1/Th17 plasticity in peripheral blood are markers of advanced β cell autoimmunity and impaired β cell function in human type 1 diabetes. Activated Th17 immunity was observed in the late stage of preclinical diabetes in children with β cell autoimmunity and impaired glucose tolerance, but not in children with early β cell autoimmunity. We found an increased ratio of IFN-γ/IL-17 expression in Th17 cells in children with advanced β cell autoimmunity, which correlated with HbA1c and plasma glucose concentrations in an oral glucose tolerance test, and thus impaired β cell function. Low expression of Helios was seen in Th17 cells, suggesting that Th1/Th17 cells are not converted thymus-derived regulatory T cells. Our results suggest that the development of Th1/Th17 plasticity may serve as a biomarker of disease progression from β cell autoantibody positivity to type 1 diabetes. These data in human type 1 diabetes emphasize the role of Th1/Th17 plasticity as a potential contributor to tissue destruction in autoimmune conditions.
AB - Upregulation of IL-17 immunity and detrimental effects of IL-17 on human islets have been implicated in human type 1 diabetes. In animal models, the plasticity of Th1/Th17 cells contributes to the development of autoimmune diabetes. In this study, we demonstrate that the upregulation of the IL-17 pathway and Th1/Th17 plasticity in peripheral blood are markers of advanced β cell autoimmunity and impaired β cell function in human type 1 diabetes. Activated Th17 immunity was observed in the late stage of preclinical diabetes in children with β cell autoimmunity and impaired glucose tolerance, but not in children with early β cell autoimmunity. We found an increased ratio of IFN-γ/IL-17 expression in Th17 cells in children with advanced β cell autoimmunity, which correlated with HbA1c and plasma glucose concentrations in an oral glucose tolerance test, and thus impaired β cell function. Low expression of Helios was seen in Th17 cells, suggesting that Th1/Th17 cells are not converted thymus-derived regulatory T cells. Our results suggest that the development of Th1/Th17 plasticity may serve as a biomarker of disease progression from β cell autoantibody positivity to type 1 diabetes. These data in human type 1 diabetes emphasize the role of Th1/Th17 plasticity as a potential contributor to tissue destruction in autoimmune conditions.
U2 - 10.4049/jimmunol.1401653
DO - 10.4049/jimmunol.1401653
M3 - Article
C2 - 25480564
SN - 0022-1767
VL - 194
SP - 68
EP - 75
JO - Journal of Immunology
JF - Journal of Immunology
IS - 1
ER -