Premature Expression of Foxp3 in Double-Negative Thymocytes

Abstract

<div><p>Peripheral immune regulation depends on the generation of thymic-derived regulatory T (tT<sub>reg</sub>) cells to maintain self-tolerance and to counterbalance overshooting immune responses. The expression of the T<sub>reg</sub> lineage defining transcription factor Foxp3 in developing tT<sub>reg</sub> cells depends on TCR signaling during the thymic selection process of these T cells. In this study, we surprisingly identify Foxp3<sup>+</sup> immature thymocytes at the double-negative (DN) stage in transcription factor 7 (Tcf7)-deficient mice. These Foxp3<sup>+</sup> cells did not express a TCR (β or γδ chains), CD3 or CD5 and therefore these cells were true DN cells. Further investigation of this phenomenon in a transgenic TCR model showed that Foxp3-expressing DN cells could not respond to TCR stimulation <i>in vivo</i>. These data suggest that Foxp3 expression in these DN cells occurred independently of TCR signaling. Interestingly, these Foxp3<sup>+</sup> DN cells were located in a transition state between DN1 and DN2 (CD4<sup>-</sup>CD8<sup>-</sup>CD3<sup>-</sup>TCR<sup>-</sup>CD44<sup>high</sup>CD25<sup>low</sup>). Our results indicate that Tcf7 is involved in preventing the premature expression of Foxp3 in DN thymocytes.</p></div

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