Inducible protein degradation reveals inflammation-dependent function of the T <sub>reg</sub> cell lineage–defining transcription factor Foxp3
Christina Jäger, Polina Dimitrova, Qiong Sun, Jesse Tennebroek, Elisa Marchiori, Markus Jaritz, René Rauschmeier, Guillem Estivill, Anna C. Obenauf, Meinrad Busslinger, Joris van der Veeken
Abstract
Regulatory T cells (T reg cells) are immunosuppressive CD4 T cells defined by expression of the transcription factor Foxp3. Genetic loss-of-function mutations in Foxp3 cause lethal multiorgan autoimmune inflammation resulting from defects in T reg cell development and suppressive activity. Whether T reg cells are continuously dependent on Foxp3 is still unclear. Here, we leveraged chemically induced protein degradation to show that functionally suppressive T reg cells in healthy organs can persist in the near-complete absence of Foxp3 protein for at least 10 days. Conversely, T reg cells responding to type 1 inflammation in settings of autoimmunity, viral infection, or cancer were selectively lost upon Foxp3 protein depletion. Acute degradation experiments revealed that Foxp3 acts mostly as a direct transcriptional repressor and modulates responsiveness to cytokine stimulation. This inflammation-dependent requirement for continuous Foxp3 activity enabled induction of a selective antitumor immune response upon systemic Foxp3 depletion, without causing deleterious T cell expansion in healthy organs.