Negative regulation of TH17-mediated inflammation by the nuclear receptor REV-ERBβ
Campbell, S.; Mosure, S. A.; Amir, M.; Chuck, J.; Lu, Q.; Solt, L.
Show abstract
TH17 cells play a central role in several human autoimmune diseases. We and others reported the nuclear receptor, REV-ERB, as a cell-intrinsic repressor of TH17-mediated pathogenicity. REV-ERB{beta}, REV-ERBs closely related family member, is thought to be functionally redundant to REV-ERB, which we sought to explore in TH17-mediated immunity. Our data indicate that deletion of REV-ERB{beta} enhances TH17-mediated pro-inflammatory cytokine expression and exacerbated disease in mouse models of multiple sclerosis and colitis. RNA-sequencing indicates REV-ERB{beta} and REV-ERB do not have similar transcriptional profiles. REV-ERB{beta} does not appear to regulate gene expression through interaction with the classic co-repressor NCoR1, which is in contrast to REV-ERB in TH17 cells, nor does it utilize heme, its known endogenous ligand for its repressive functions. Our results establish that while REV-ERB{beta} also acts as a negative regulator of TH17-cell function and pathogenicity, it does so in a manner that is non-redundant, independent, and unique to REV-ERB.
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