AUTHOR=Watts Deepika , Janßen Marthe , Jaykar Mangesh , Palmucci Francesco , Weigelt Marc , Petzold Cathleen , Hommel Angela , Sparwasser Tim , Bonifacio Ezio , Kretschmer Karsten 

TITLE=Transient Depletion of Foxp3+ Regulatory T Cells Selectively Promotes Aggressive β Cell Autoimmunity in Genetically Susceptible DEREG Mice

JOURNAL=Frontiers in Immunology

VOLUME=12

YEAR=2021

URL=https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2021.720133

DOI=10.3389/fimmu.2021.720133

ISSN=1664-3224

ABSTRACT=<p>Type 1 diabetes (T1D) represents a hallmark of the fatal multiorgan autoimmune syndrome affecting humans with abrogated Foxp3<sup>+</sup> regulatory T (Treg) cell function due to <italic>Foxp3</italic> gene mutations, but whether the loss of Foxp3<sup>+</sup> Treg cell activity is indeed sufficient to promote β cell autoimmunity requires further scrutiny. As opposed to human Treg cell deficiency, β cell autoimmunity has not been observed in non-autoimmune-prone mice with constitutive <italic>Foxp3</italic> deficiency or after diphtheria toxin receptor (DTR)-mediated ablation of Foxp3<sup>+</sup> Treg cells. In the spontaneous nonobese diabetic (NOD) mouse model of T1D, constitutive Foxp3 deficiency did not result in invasive insulitis and hyperglycemia, and previous studies on Foxp3<sup>+</sup> Treg cell ablation focused on Foxp3<sup>DTR</sup> NOD mice, in which expression of a transgenic BDC2.5 T cell receptor (TCR) restricted the CD4<sup>+</sup> TCR repertoire to a single diabetogenic specificity. Here we revisited the effect of acute Foxp3<sup>+</sup> Treg cell ablation on β cell autoimmunity in NOD mice in the context of a polyclonal TCR repertoire. For this, we took advantage of the well-established DTR/GFP transgene of DEREG mice, which allows for specific ablation of Foxp3<sup>+</sup> Treg cells without promoting catastrophic autoimmune diseases. We show that the transient loss of Foxp3<sup>+</sup> Treg cells in prediabetic NOD.DEREG mice is sufficient to precipitate severe insulitis and persistent hyperglycemia within 5 days after DT administration. Importantly, DT-treated NOD.DEREG mice preserved many clinical features of spontaneous diabetes progression in the NOD model, including a prominent role of diabetogenic CD8<sup>+</sup> T cells in terminal β cell destruction. Despite the severity of destructive β cell autoimmunity, anti-CD3 mAb therapy of DT-treated mice interfered with the progression to overt diabetes, indicating that the novel NOD.DEREG model can be exploited for preclinical studies on T1D under experimental conditions of synchronized, advanced β cell autoimmunity. Overall, our studies highlight the continuous requirement of Foxp3<sup>+</sup> Treg cell activity for the control of genetically pre-installed autoimmune diabetes.</p>