Abstract
The transcriptional regulator Rbpj is involved in T-helper (T-H) subset polarization, but its function in T-reg cells remains unclear. Here we show that T-reg-specific Rbpj deletion leads to splenomegaly and lymphadenopathy despite increased numbers of T-reg cells with a polyclonal TCR repertoire. A specific defect of Rbpj-deficient T-reg cells in controlling T(H)2 polarization and B cell ...
Abstract
The transcriptional regulator Rbpj is involved in T-helper (T-H) subset polarization, but its function in T-reg cells remains unclear. Here we show that T-reg-specific Rbpj deletion leads to splenomegaly and lymphadenopathy despite increased numbers of T-reg cells with a polyclonal TCR repertoire. A specific defect of Rbpj-deficient T-reg cells in controlling T(H)2 polarization and B cell responses is observed, leading to the spontaneous formation of germinal centers and a T(H)2-associated immunoglobulin class switch. The observed phenotype is environment-dependent and can be induced by infection with parasitic nematodes. Rbpj-deficient T-reg cells adopt open chromatin landscapes and gene expression profiles reminiscent of tissue-derived T(H)2-polarized T-reg cells, with a prevailing signature of the transcription factor Gata-3. Taken together, our study suggests that T-reg cells require Rbpj to specifically restrain T(H)2 responses, including their own excessive T(H)2-like differentiation potential.