Differences in immune cell profiles around the time of islet autoimmunity seroconversion in children with and without type 1 diabetes

Seroconversion (SV) marks the initiation of islet autoimmunity (IA) and pre-clinical phase of type 1 diabetes (T1D), yet the contributions of immune cells beyond cytotoxic T cells remain unclear. We applied high-resolution immune cell-type deconvolution using peripheral blood DNA methylation data from nested case-control samples of the Diabetes Autoimmunity Study in the Young (DAISY; n=151) and The Environmental Determinants of Diabetes in the Young (TEDDY; n=166) to estimate immune cell proportions before SV (pre-SV) and after SV (SV) and construct functional ratios, such as the neutrophil-to-lymphocyte ratio (NLR). Using linear models, we evaluated differences between T1D cases and controls at pre-SV, SV, and the change across timepoints. Pre-SV, T1D cases had higher NLR and lower CD4T/CD8T cell ratios. At SV, the combined B-CD4T-CD8T memory/naive ratio was reduced in cases. From pre-SV to SV, T1D cases also showed attenuated increases in NLR, B-memory/naive, and B-CD4T-CD8T memory/naive ratios. These patterns may reflect delayed or disrupted immune maturation, with persistence of naive cells or impaired transition to memory subsets following antigen exposure. Our findings suggest that changes in innate and adaptive immune dynamics emerge early in the disease process, and that peripheral immune cell ratios may serve as informative biomarkers for risk stratification and mechanistic insight for development of T1D.