Uta Schaefer scite author profile

The members of the tumour necrosis factor (TNF) superfamily of cytokines play important roles in the regulation of various immune-cell functions. Likewise, induction of cell death by apoptosis is indispensable for the normal functioning of the immune system. There are two major pathways of apoptosis induction. The intrinsic, or mitochondrial, pathway is regulated by the activation and interaction of members of the Bcl-2 family. The extrinsic, or death receptor, pathway is triggered by certain TNF family members when they engage their respective cognate receptors on the surface of the target cell. Hence, cell-to-cell-mediated death signals are induced by activation of these death receptor-ligand systems. Besides TNF itself and the CD95 (Fas/APO-1) ligand (FasL/Apo1L), the TNF-related apoptosis-inducing ligand (TRAIL/Apo2L) belongs to the subfamily of ligands that is responsible for extrinsic induction of cell death. Depending on their status of stimulation, TRAIL can be expressed by various cells of the immune system, amongst them natural killer (NK) cells, T cells, natural killer T cells (NKT cells), dendritic cells and macrophages. TRAIL has been implicated in immunosuppressive, immunoregulatory and immune-effector functions. With respect to pathological challenges, TRAIL and its receptors have been shown to play important roles in the immune response to viral infections and in immune surveillance of tumours and metastases. In this review we summarize the current knowledge on the role of TRAIL and its receptors in the immune system and, based on this, we discuss future directions of research into the diverse functions of this fascinating receptor-ligand system.

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TRAIL-R deficiency in mice enhances lymph node metastasis without affecting primary tumor development

Grosse‐Wilde

et al. 2008

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TRAIL is a promising anticancer agent due to its ability to selectively induce apoptosis in established tumor cell lines but not nontransformed cells. Herein, we demonstrate a role for the apoptosis-inducing TRAIL receptor (TRAIL-R) as a metastasis suppressor. Although mouse models employing tumor transplantation have shown that TRAIL can reduce tumor growth, autochthonous tumor models have generated conflicting results with respect to the physiological role of the TRAIL system during tumorigenesis. We used a multistage model of squamous cell carcinoma to examine the role of TRAIL-R throughout all steps of tumor development. DMBA/ TPA-treated TRAIL-R-deficient mice showed neither an increase in number or growth rate of benign papillomas nor an increase in the rate of progression to squamous cell carcinoma. However, metastasis to lymph nodes was significantly enhanced, indicating a role for TRAIL-R specifically in the suppression of metastasis. We also found that adherent TRAIL-R-expressing skin carcinoma cells were TRAIL resistant in vitro but were sensitized to TRAIL upon detachment by inactivation of the ERK signaling pathway. As detachment from the primary tumor is an obligatory step in metastasis, this provides a possible mechanism by which TRAIL-R could inhibit metastasis. Hence, treatment of cancer patients with agonists of the apoptosis-inducing receptors for TRAIL may prove useful in reducing the incidence of metastasis.

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TRAIL: a multifunctional cytokine

Schaefer

Voloshanenko²,

Willen³

et al. 2007

Front Biosci

114

127

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The Tumor necrosis factor (TNF)-Related Apoptosis Inducing Ligand, TRAIL, has gained much attention due to its specific anti-tumor potential without toxic side effects. TRAIL binds to a complex receptor system. In humans there are two death-inducing receptors for TRAIL while only one is present in mice. The signaling induced by these receptors leads to apoptosis but might also result in activation of survival signals. To assess the safety and possible side effects of TRAIL-based cancer therapy it is necessary to understand the physiological role of the TRAIL/TRAIL-R system. This has been addressed in mice deficient either for TRAIL or for its only murine apoptosis-inducing receptor, TRAIL-R (MK/mDR5). In this review we will discuss their phenotypes and the results of recent studies on the role of TRAIL in the homeostasis of the immune system, the influence of the TRAIL/TRAIL-R system on infection and autoimmune diseases and the still controversial role of TRAIL in tumorigenesis. Clinical trials with TRAIL and other TRAIL receptor agonists are now under way. It will be exciting to determine which TRAIL-R agonists, either alone or in combination with other anti-cancer therapeutics, will result in better outcome of cancer treatment in the future.

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Uta Schaefer

Following TRAIL’s path in the immune system

TRAIL-R deficiency in mice enhances lymph node metastasis without affecting primary tumor development

TRAIL: a multifunctional cytokine

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