FOXP3 is a forkhead family transcriptional repressor important for the development and function of CD4+CD25+ regulatory T cells. In humans, FOXP3 is expressed as two isoforms, a full-length form and a smaller form lacking exon 2. These two isoforms are expressed in approximately equal amounts in circulating regulatory T cells, and are induced equally in freshly activated CD4+CD25− T cells. Herein, we show that FOXP3 interacts with retinoic acid receptor-related orphan receptor (ROR)α, and that this interaction inhibits transcriptional activation mediated by RORα. Full-length FOXP3, but not the isoform lacking exon 2, interacts with RORα, and the region of FOXP3 involved in the interaction is encoded by exon 2. Mutation of the LxxLL motif in FOXP3, located in exon 2, abolished interaction and repression by FOXP3. Additionally, the inhibition of RORα by FOXP3 does not require an intact forkhead domain, demonstrating a mode of FOXP3 function that is independent of DNA binding. Interestingly, expression of RORα in T cells leads to the expression of genes that define Th17 cells, and the expression of each of these gene was inhibited by coexpression of full-length, but not ΔEx2, FOXP3. These data expand the possible targets of FOXP3-mediated repression and demonstrate functional differences between FOXP3 isoforms.
Thrombospondin type 1 repeat (TSR) superfamily members regulate diverse biological activities ranging from cell motility to inhibition of angiogenesis. In this study, we verified that mouse protein O-fucosyltransferase-2 (POFUT2) specifically adds O-fucose to TSRs. Using two Pofut2 gene trap lines, we demonstrated that O-fucosylation of TSRs was essential for restricting epithelial to mesenchymal transition in the primitive streak, correct patterning of mesoderm, and localization of the definitive endoderm. Although Pofut2 mutant embryos established anterior/posterior polarity, they underwent extensive mesoderm differentiation at the expense of maintaining epiblast pluripotency. Moreover, mesoderm differentiation was biased towards the vascular endothelial cell lineage. Localization of Foxa2 and Cer1 expressing cells within the interior of Pofut2 mutant embryos suggested that POFUT2 activity was also required for the displacement of the primitive endoderm by definitive endoderm. Notably, Nodal, BMP4, Fgf8, and Wnt3 expression were markedly elevated and expanded in Pofut2 mutants, providing evidence that O-fucose modification of TSRs was essential for modulation of growth factor signaling during gastrulation. The ability of Pofut2 mutant embryos to form teratomas comprised of tissues from all three germ layer origins suggested that defects in Pofut2 mutant embryos resulted from abnormalities in the extracellular environment. This prediction is consistent with the observation that POFUT2 targets are constitutive components of the extracellular matrix (ECM) or associate with the ECM. For this reason, the Pofut2 mutants represent a valuable tool for studying the role of O-fucosylation in ECM synthesis and remodeling, and will be a valuable model to study how post-translational modification of ECM components regulates the formation of tissue boundaries, cell movements, and signaling.
The inverse correlation between DNA methylation and lineagespecific gene expression during T helper cell development is well documented. However, the specific functions of the de novo methyltransferases Dnmt3a and Dnmt3b in cytokine gene regulation have not been defined. We demonstrate that the expression of Dnmt3a and Dnmt3b are induced to a greater extent in T helper 2 (Th2) cells than in T helper 1 cells during polarization. Using conditional mutant mice, we determined that Dnmt3a, but not Dnmt3b, regulated expression of T helper cell cytokine genes, with the Il13 gene most prominently affected. Dnmt3a deficiency was accompanied by decreases in DNA methylation and changes in the H3K27 acetylation/methylation status at the Il13 locus. Dnmt3a-dependent regulation of Il13 also occurred in vivo because Dnmt3a fl/fl Cd4cre mice exhibited increased lung inflammation in a murine asthma model, compared with littermate controls. Based on these observations, we conclude that Dnmt3a is required for controlling normal Il13 gene expression and functions as a ratelimiting factor to restrict T helper 2-mediated inflammation.de novo DNA methyltransferase | IL-13 | chromatin
Respiratory syncytial virus (RSV) infection is a leading cause of severe lower respiratory tract illness in young infants, the elderly and immunocompromised individuals. We demonstrate here that the co-inhibitory molecule programmed cell death 1 (PD-1) is selectively upregulated on T cells within the respiratory tract during both murine and human RSV infection. Importantly, the interaction of PD-1 with its ligand PD-L1 is vital to restrict the pro-inflammatory activities of lung effector T cells in situ, thereby inhibiting the development of excessive pulmonary inflammation and injury during RSV infection. We further identify that PD-L1 expression on lung inflammatory dendritic cells is critical to suppress inflammatory T-cell activities, and an interferon–STAT1–IRF1 axis is responsible for increased PD-L1 expression on lung inflammatory dendritic cells. Our findings suggest a potentially critical role of PD-L1 and PD-1 interactions in the lung for controlling host inflammatory responses and disease progression in clinical RSV infection.
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