Heidi Skrenta scite author profile

The active ubiquitin E3 ligase GRAIL is crucial in the induction of CD4 T cell anergy. Here we show that GRAIL is associated with and regulated by two isoforms of the ubiquitin-specific protease otubain 1. In lethally irradiated mice reconstituted with bone marrow cells from T cell receptor-transgenic mice retrovirally transduced to express the genes encoding these proteases, otubain 1-expressing cells contained negligible amounts of endogenous GRAIL, proliferated well and produced large amounts of interleukin 2 after antigenic stimulation. In contrast, cells expressing the alternatively spliced isoform, otubain 1 alternative reading frame 1, contained large amounts of endogenous GRAIL and were functionally anergic, and they proliferated poorly and produced undetectable interleukin 2 when stimulated in a similar way. Thus, these two proteins have opposing epistatic functions in controlling the stability of GRAIL expression and the resultant anergy phenotype in T cells.

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Grail

Anandasabapathy

et al. 2003

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T cell anergy may serve to limit autoreactive T cell responses. We examined early changes in gene expression after antigen-TCR signaling in the presence (activation) or absence (anergy) of B7 costimulation. Induced expression of GRAIL (gene related to anergy in lymphocytes) was observed in anergic CD4(+) T cells. GRAIL is a type I transmembrane protein that localizes to the endocytic pathway and bears homology to RING zinc-finger proteins. Ubiquitination studies in vitro support GRAIL function as an E3 ubiquitin ligase. Expression of GRAIL in retrovirally transduced T cell hybridomas dramatically limits activation-induced IL-2 and IL-4 production. Additional studies suggest that GRAIL E3 ubiquitin ligase activity and intact endocytic trafficking are critical for cytokine transcriptional regulation. Expression of GRAIL after an anergizing stimulus may result in ubiquitin-mediated regulation of proteins essential for mitogenic cytokine expression, thus positioning GRAIL as a key player in the induction of the anergic phenotype.

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Ligand-Independent Down-Regulation of IFN-γ Receptor 1 Following TCR Engagement

Skrenta¹,

Yang

Pestka³

et al. 2000

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Activated T lymphocytes modulate the level of many molecules on their cell surface, including cytokine receptors. This regulation of cytokine receptor expression affects the ability of T cells to respond to cytokines and thus influences the outcome of an immune response. The receptor for IFN-γ, a proinflammatory cytokine, consists of two copies of a ligand binding chain (IFN-γR1) as well as two copies of a second chain (IFN-γR2) required for signal transduction. The expression of IFN-γR2 is down-regulated at the mRNA level on CD4+ T cells when they differentiate into the Th1, but not the Th2, phenotype. This down-regulation has been demonstrated to depend on the ligand, IFN-γ, which is produced by Th1 but not Th2 T cells. The regulation of the cell-surface expression of IFN-γ receptors during primary T cell activation has not been reported. Naive and differentiated T lymphocytes express IFN-γR1 at the mRNA level and as a cell-surface protein. In this study, we present evidence that cell-surface expression of IFN-γR1 is transiently down-regulated on the surface of naive CD4+ T cells shortly after TCR engagement. Furthermore, this down-regulation is not mediated by the ligand, IFN-γ, but results from TCR engagement and can be inhibited by cyclosporin A.

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Heidi Skrenta

Two isoforms of otubain 1 regulate T cell anergy via GRAIL

Grail

Ligand-Independent Down-Regulation of IFN-γ Receptor 1 Following TCR Engagement

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