Feuerer et al. [11] reported increased levels of Treg cells in NOD vs. B6.H-2g7 thymi. More recently, Yamanouchi et al. [12] showed that the Idd9.1 diabetes susceptibility locus may quantitatively modulate thymic Treg-cell levels. Intriguingly, the protective Idd9.1 locus of B6 origin actually conferred somewhat increased thymic Treg-cell levels, which contrasts with the findings by Feuerer et al. [11] showing higher Treg-cell levels in NOD than in B6 thymi. These contradictory findings raised questions concerning the relationship, if any, between the quantitatively increased generation of Treg cells in the thymus and the role of Treg cells in the progression to diabetes.
Multiple genetic factors contribute to T1D susceptibility in humans and in NOD mice. The availability of a large number of congenic NOD.B6-Idd strains [13] opens the GPCR Compound Library supplier intriguing possibility to assess the involvement of diabetes susceptibility loci in the quantitative control of Treg-cell development in NOD mice. We previously showed that Treg-cell development is quantitatively controlled by a locus closely linked to the H2 locus on Mouse
chromosome 17 [14]. Based on these findings, Trichostatin A solubility dmso we here investigate if the increased thymic Treg-cell development in NOD mice is controlled by an H2-linked locus. Finally, we ask if the increased thymic Treg-cell development in NOD mice is somehow linked to diabetes susceptibility. We observed approximately twofold higher proportions of Foxp3+ cells among mature CD4+CD8− (CD4 single positive, CD4SP) cells in the thymi of young (6 weeks of age) female NOD mice than in B6 animals (Fig. 1A and B, left). This quantitative variation could be due either to an Sitaxentan increase in Treg-cell numbers or to a quantitative decrease in Tconv cells. To distinguish between these two possibilities, we determined the absolute numbers of CD4SP Foxp3+ cells. Approximately twofold higher numbers of these cells were found in NOD than in B6 mice (Fig. 1B, right). We also determined the ratios of Foxp3+ regulatory and Foxp3− conventional CD4SP to their CD4+CD8+ (DP) precursors (Fig. 1C). Whereas Tconv/DP ratios were similar in NOD vs. B6 mice, a substantially and statistically
significant higher Treg/DP ratio was observed in NOD than in B6 mice. These data therefore indicate that higher numbers of Treg cells are found in NOD than in B6 thymi. Substantially more Treg cells were also found in thymi of NOD as compared to B6 one- and four-week-old mice (Fig. 2A), in agreement with a previous work reporting a higher generation of thymic Treg cells also in NOD fetal thymus organ cultures [11]. It has been previously shown that mature thymocytes can divide before emigrating to the periphery [15, 16]. To investigate if greater intrathymic proliferation of CD4+Foxp3+ thymocytes accounts for increased Treg-cell numbers in NOD mice, thymocytes of the two strains were labeled with antibody to Ki67, a nuclear antigen expressed in dividing cells.