Core 2 ß1,6-N-acetylglucosaminyltransferase-I, crucial for P-selectin ligand expression is controlled by a distal enhancer regulated by STAT4 and T-bet in CD4+ T helper cells 1.

P-selectin ligands (P-ligs) support the recruitment of lymphocytes into inflamed tissues. Binding to P-selectin is mediated by oligosaccharide groups synthesized by means of several glycosyltransferases including core 2 ß1,6-N-acetylglucosaminyltransferase-I (C2GlcNAcT-I), encoded by the gene Gcnt1. Using Gcnt1(-/-) Th1 cells, we show that C2GlcNAcT-I is crucial for inflammatory T cell homing in vivo. To understand the molecular regulation of Gcnt1 in CD4(+) T helper cells, we performed ChIP-on-chip experiments across the Gcnt1 locus assessing the chromatin structure in P-lig-expressing versus non-expressing CD4(+) T cells. This identified a distal region about 20kb upstream of the promoter where the presence of a H3K27me3 mark correlated with Gcnt1 repression. This region possessed IL-12-dependent enhancer activity in reporter assays, in accordance with preferential IL-12-dependent induction of Gcnt1 in vitro. STAT4 and T-bet cooperated in control of the enhancer activity. Deficiency in either one resulted in drastically reduced Gcnt1 mRNA expression in differentiated Th1 cells. While both STAT4 and T-bet were bound to the enhancer early after activation only T-bet binding persisted throughout the expansion phase after TCR signal cessation. This suggests sequential action of STAT4 and T-bet at the enhancer. In summary, we show that Gcnt1 transcription and subsequent P-lig induction in Th1 cells is governed by binding of STAT4 and T-bet to a distal enhancer and further regulated by epigenetic marks such as H3K27me3.

Identification of two regulatory elements controlling Fucosyltransferase 7 transcription in murine CD4+ T cells.

Fucosyltransferase VII encoded by the gene Fut7 is essential in CD4(+) T cells for the generation of E- and P-selectin ligands (E- and P-lig) which facilitate recruitment of lymphocytes into inflamed tissues and into the skin. This study aimed to identify regulatory elements controlling the inducible Fut7 expression in CD4(+) T cells that occurs upon activation and differentiation of naive T cells into effector cells. Comparative analysis of the histone modification pattern in non-hematopoetic cells and CD4(+) T cell subsets revealed a differential histone modification pattern within the Fut7 locus including a conserved non-coding sequence (CNS) identified by cross-species conservation comparison suggesting that regulatory elements are confined to this region. Cloning of the CNS located about 500 bp upstream of the Fut7 locus, into a luciferase reporter vector elicited reporter activity after transfection of the αß-WT T cell line, but not after transfection of primary murine CD4(+) Th1 cells. As quantification of different Fut7 transcripts revealed a predominance of transcripts lacking the first exons in primary Th1 cells we searched for an alternative promoter. Cloning of an intragenic region spanning a 1kb region upstream of exon 4 into an enhancer-containing vector indeed elicited promoter activity. Interestingly, also the CNS enhanced activity of this intragenic minimal promoter in reporter assays in primary Th1 cells suggesting that both elements interact in primary CD4(+) T cells to induce Fut7 transcription.

Timed action of IL-27 protects from immunopathology while preserving defense in influenza.

Infection with influenza virus can result in massive pulmonary infiltration and potentially fatal immunopathology. Understanding the endogenous mechanisms that control immunopathology could provide a key to novel adjunct therapies for this disease. Here we show that the cytokine IL-27 plays a crucial role in protection from exaggerated inflammation during influenza virus infection. Using Il-27ra-/- mice, IL-27 was found to limit immunopathology, neutrophil accumulation, and dampened TH1 or TH17 responses via IL-10-dependent and -independent pathways. Accordingly, the absence of IL-27 signals resulted in a more severe disease course and in diminished survival without impacting viral loads. Consistent with the delayed expression of endogenous Il-27p28 during influenza, systemic treatment with recombinant IL-27 starting at the peak of virus load resulted in a major amelioration of lung pathology, strongly reduced leukocyte infiltration and improved survival without affecting viral clearance. In contrast, early application of IL-27 impaired virus clearance and worsened disease. These findings demonstrate the importance of IL-27 for the physiological control of immunopathology and the potential value of well-timed IL-27 application to treat life-threatening inflammation during lung infection.