B7/CD28 in Central Tolerance: Costimulation Promotes Maturation of Regulatory T Cell Precursors and Prevents Their Clonal Deletion

Gerald Wirnsberger,Ludger Klein,Maria Hinterberger

doi:10.3389/fimmu.2011.00030

Abstract

According to the “two-step model,” the intrathymic generation of CD4+ regulatory T (Treg) cells segregates into a first, T cell receptor (TCR)-driven phase and a second, cytokine-dependent phase. The initial TCR stimulus gives rise to a CD25+Foxp3− developmental intermediate. These precursors subsequently require cytokine signaling to establish the mature CD25+Foxp3+ Treg cell phenotype. In addition, costimulation via CD28/B7 (CD80/86) axis is important for the generation of a Treg cell repertoire of normal size. Recent data suggest that CD28 or B7 deficient mice lack CD25+Foxp3− Treg cell progenitors. However, these data leave open whether costimulation is also required at subsequent stages of Treg differentiation. Also, the fate of “presumptive” Treg cells carrying a permissive TCR specificity in the absence of costimulation remains to be established. Here, we have used a previously described TCR transgenic model of agonist-driven Treg differentiation in order to address these issues. Intrathymic adoptive transfer of Treg precursors indicated that costimulation is dispensable once the intermediate CD25+Foxp3− stage has been reached. Furthermore, lack of costimulation led to the physical loss of presumptive Treg cells rather than their escape from central tolerance and differentiation into the conventional CD4+ T cell lineage. Our findings suggest that CD28 signaling does not primarily operate through enhancing the TCR signal strength in order to pass the threshold intensity required to initiate Treg cell specification. Instead, costimulation seems to deliver unique and qualitatively distinct signals that coordinately foster the developmental progression of Treg precursors and prevent their negative selection.

Highlights

CD4+ regulatory T (Treg) cells expressing the transcription factor Foxp3 exert an essential function for the maintenance of selftolerance and immune homeostasis (Sakaguchi, 2004)
Expression and presentation of cognate antigen by medullary thymic epithelial cells promotes the negative selection of the majority of influenza HA specific CD4 SP thymocytes, while at the same time a distinct and traceable cohort of HA-specific CD4 SP cells differentiate into Treg cells (Aschenbrenner et al, 2007; Hinterberger et al, 2010)
Our findings suggest that the critical function of B7/CD28 costimulation is to support the development and survival of the CD25+Foxp3− intermediate stage of Treg differentiation

Summary

Introduction

CD4+ regulatory T (Treg) cells expressing the transcription factor Foxp exert an essential function for the maintenance of selftolerance and immune homeostasis (Sakaguchi, 2004). Entry into the Treg cell lineage during thymocyte development is believed to depend upon instructive processes ensuing from selfantigen recognition (Wirnsberger et al, 2011). Evidence for this has been obtained in TCR/neo-self-antigen double transgenic systems (Jordan et al, 2001; Apostolou et al, 2002; Kawahata et al, 2002; Aschenbrenner et al, 2007) and stems from observations that polyclonal thymocytes bearing superantigen-reactive TCRs are substantially enriched in Foxp3+ cells (Papiernik et al, 1998; Ribot et al, 2006). Co-signals provided by common γ-chain cytokines [interleukin (IL)-2 in particular, and IL-7 and -15; Fontenot et al, 2005a; Mayack and Berg, 2006; Yao et al, 2007; Bayer et al, 2008; Vang et al, 2008] as well as costimulation through CD28/B7 interactions are required for efficient intrathymic differentiation of Treg cells

Methods

Results

Conclusion