Type 1 diabetes (T1D) is an autoimmune disease characterized by an inability to produce insulin as the result of insulin-secreting pancreatic β cell loss. Neutrophils are key mediators of several autoimmune disorders; however, the contribution of these cells to T1D etiology is poorly defined. In this episode, Manuela Battaglia and colleagues discuss their work, which identifies an abnormal neutrophil signature that is present in the blood and pancreas of individuals with T1D and those that are at risk of disease. Cumulatively, these results suggest that neutrophils should be explored as a therapeutic target for T1D.
BACKGROUND. Neutrophils and their inflammatory mediators are key pathogenic components in multiple autoimmune diseases, while their role in human type 1 diabetes (T1D), a disease that progresses sequentially through identifiable stages prior to the clinical onset, is not well understood. We previously reported that the number of circulating neutrophils is reduced in patients with T1D and in presymptomatic at-risk subjects. The aim of the present work was to identify possible changes in circulating and pancreas-residing neutrophils throughout the disease course to better elucidate neutrophil involvement in human T1D. METHODS. Data collected from 389 subjects at risk of developing T1D, and enrolled in 4 distinct studies performed by TrialNet, were analyzed with comprehensive statistical approaches to determine whether the number of circulating neutrophils correlates with pancreas function. To obtain a broad analysis of pancreas-infiltrating neutrophils throughout all disease stages, pancreas sections collected worldwide from 4 different cohorts (i.e., nPOD, DiViD, Siena, and Exeter) were analyzed by immunohistochemistry and immunofluorescence. Finally, circulating neutrophils were purified from unrelated nondiabetic subjects and donors at various T1D stages and their transcriptomic signature was determined by RNA sequencing. RESULTS. Here, we show that the decline in β cell function is greatest in individuals with the lowest peripheral neutrophil numbers. Neutrophils infiltrate the pancreas prior to the onset of symptoms and they continue to do so as the disease progresses. Of interest, a fraction of these pancreas-infiltrating neutrophils also extrudes neutrophil extracellular traps (NETs), suggesting a tissue-specific pathogenic role. Whole-transcriptome analysis of purified blood neutrophils revealed a unique molecular signature that is distinguished by an overabundance of IFN-associated genes; despite being healthy, said signature is already present in T1D-autoantibody-negative at-risk subjects. CONCLUSIONS. These results reveal an unexpected abnormality in neutrophil disposition both in the circulation and in the pancreas of presymptomatic and symptomatic T1D subjects, implying that targeting neutrophils might represent a previously unrecognized therapeutic modality. FUNDING. Juvenile Diabetes Research Foundation (JDRF), NIH, Diabetes UK.
Federica Vecchio, Nicola Lo Buono, Angela Stabilini, Laura Nigi, Matthew J. Dufort, Susan Geyer, Paola Maria Rancoita, Federica Cugnata, Alessandra Mandelli, Andrea Valle, Pia Leete, Francesca Mancarella, Peter S. Linsley, Lars Krogvold, Kevan C. Herold, Helena Elding Larsson, Sarah J. Richardson, Noel G. Morgan, Knut Dahl-Jørgensen, Guido Sebastiani, Francesco Dotta, Emanuele Bosi, the DRI_Biorepository Group, the Type 1 Diabetes TrialNet Study Group, Manuela Battaglia