TL1A is a novel TNF-like factor that acts as a costimulator of IFN-γ secretion through binding to the death domain-containing receptor, DR3. The aim of this study was to test the hypothesis that TL1A may play an important role in inflammatory bowel disease (IBD) by functioning as a Th1-polarizing cytokine. The expression, cellular localization, and functional activity of TL1A and DR3 were studied in intestinal tissue specimens as well as isolated lamina propria mononuclear cells from IBD patients and controls. TL1A mRNA and protein expression was up-regulated in IBD, particularly in involved areas of Crohn’s disease (CD; p < 0.03 vs control). TL1A production was localized to the intestinal lamina propria in macrophages and CD4+ and CD8+ lymphocytes from CD patients as well as in plasma cells from ulcerative colitis patients. The amount of TL1A protein and the number of TL1A-positive cells correlated with the severity of inflammation, most significantly in CD. Increased numbers of immunoreactive DR3-positive T lymphocytes were detected in the intestinal lamina propria from IBD patients. Addition of recombinant human TL1A to cultures of PHA-stimulated lamina propria mononuclear from CD patients significantly augmented IFN-γ production by 4-fold, whereas a minimal effect was observed in control patients. Our study provides evidence for the first time that the novel cytokine TL1A may play an important role in a Th1-mediated disease such as CD.
Regulation of messenger RNA stability by AU-rich elements is an important means of regulating genes induced by growth factors and cytokines. Nup475 (also known as tristetraprolin, or TIS11) is the prototype for a family of zinc-binding Cys 3 His motif proteins required for proper regulation of tumor necrosis factor mRNA stability in macrophages. We developed an Escherichia coli expression system to produce soluble Nup475 protein in quantity to study its RNA binding properties. Nup475 protein bound a tumor necrosis factor AU-rich element over a broad range of pH and salt concentrations by RNA gel shift. This binding was inhibited by excess zinc metal, providing a potential mechanism for previous reports of zinc stabilization of AU-rich element (ARE) containing messenger RNAs. Immobilized Nup475 protein was used to select its optimal binding site by RNA SELEX and revealed a strong preference for the extended sequence UUAUUUAUU, rather than a simple AUUUA motif. These findings were confirmed by sitedirected mutagenesis of the tumor necrosis factor ARE and RNA gel shifts on c-fos, interferon-␥, and interferon- ARE fragments. A weaker binding activity toward adenine-rich sites, such as a poly(A) tail RNA fragment, can partially disrupt the Nup475-tumor necrosis factor AU-rich element complex.
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