A Tailless Fas-FADD Death-Effector Domain Chimera Is Sufficient to Execute Fas Function in T Cells But Not B Cells of MRL-<i>lpr/lpr</i>Mice

Mice expressing transgenic T cell receptors (TCR) are used to explore important questions in immunity. However, transgene expression may have unexpected effects. We previously reported a B cell immunodeficiency, comprising decreased B cell numbers and diminished antibody responses, in mice that express a transgenic TCR specific for nicotinic acetylcholine receptor; the mice were generated using cassette vectors designed specifically for transgenic TCR expression [see Kouskoff et al. J. Immunol. Methods 1995. 180: 273-280]. We now show data suggesting that this defect is due to the expression and accumulation of TCR § and g chains inside B cells and induction of an endoplasmic reticulum stress response, causing apoptosis at the pre B-I and later B cell stage. Thus, inappropriate transgene expression can profoundly affect B cells, leading to a previously undescribed mechanism of immunodeficiency.

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Ectopic T cell receptor expression causes B cell immunodeficiency in transgenic mice

Lobito

Lopes

Lenardo

2004

Eur J Immunol

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Untitled

2003

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Engagement of the cell surface receptor Fas/APO-1 (CD95) initiates a sequence of intracellular events that leads to apoptotic cell death, and this outcome occurs in B cells as it does in other cell types. Fas signaling for B cell death is of particular interest because the expression and function of Fas is altered by engagement of additional cell surface receptors, leading to marked receptor-specific variation in susceptibility to Fas-induced apoptosis. Evidence suggests that the sensitivity of B cells to Fas-mediated apoptosis is intimately connected to homeostasis in the serological arm of the immune system and plays a role in the dysregulation that occurs in certain autoimmune and malignant dyscrasias.

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Regulating Vav1 phosphorylation by the SHP-1 tyrosine phosphatase is a fine-tuning mechanism for the negative regulation of DISC formation and Fas-mediated cell death signaling

et al. 2007

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The actin cytoskeleton association is required for caspase 8-independent Fas/CD95 receptor internalization, a critical step for an optimal death-inducing signaling complex formation along the endocytic pathway, leading to efficient activation of the caspase cascade and, ultimately, cell death. However, the way in which this initiation phase of Fas receptor signaling is regulated is still unknown. We report herein that, in B cells, upon Fas engagement, the tyrosine phosphatase SHP-1-regulated Vav dephosphorylation, by downmodulating the Fas-ezrin-actin linkage is a fine-tune switch-off mechanism that the cell uses as a way to terminate the receptor internalization, controlling therefore the time and extent of the DISC formation and cell death.

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A Tailless Fas-FADD Death-Effector Domain Chimera Is Sufficient to Execute Fas Function in T Cells But Not B Cells of MRL-lpr/lprMice

Cited by 9 publications

References 53 publications

Ectopic T cell receptor expression causes B cell immunodeficiency in transgenic mice

Ectopic T cell receptor expression causes B cell immunodeficiency in transgenic mice

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Regulating Vav1 phosphorylation by the SHP-1 tyrosine phosphatase is a fine-tuning mechanism for the negative regulation of DISC formation and Fas-mediated cell death signaling

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