TY - JOUR A1 - Kreckel, Jennifer A1 - Anany, Mohammed A. A1 - Siegmund, Daniela A1 - Wajant, Harald T1 - TRAF2 controls death receptor-induced caspase-8 processing and facilitates proinflammatory signaling JF - Frontiers in Immunology N2 - Tumor necrosis factor (TNF) receptor associated factor-2 (TRAF2) knockout (KO) cells were generated to investigate the role of TRAF2 in signaling by TNFR1 and the CD95-type death receptors (DRs) TRAILR1/2 and CD95. To prevent negative selection effects arising from the increased cell death sensitivity of TRAF2-deficient cells, cell lines were used for the generation of the TRAF2 KO variants that were protected from DR-induced apoptosis downstream of caspase-8 activation. As already described in the literature, TRAF2 KO cells displayed enhanced constitutive alternative NFκB signaling and reduced TNFR1-induced activation of the classical NFκB pathway. There was furthermore a significant but only partial reduction in CD95-type DR-induced upregulation of the proinflammatory NFκB-regulated cytokine interleukin-8 (IL8), which could be reversed by reexpression of TRAF2. In contrast, expression of the TRAF2-related TRAF1 protein failed to functionally restore TRAF2 deficiency. TRAF2 deficiency resulted furthermore in enhanced procaspase-8 processing by DRs, but this surprisingly came along with a reduction in net caspase-8 activity. In sum, our data argue for (i) a non-obligate promoting function of TRAF2 in proinflammatory DR signaling and (ii) a yet unrecognized stabilizing effect of TRAF2 on caspase-8 activity. KW - caspase-8 KW - death receptors KW - CD95 KW - TNFR1 KW - TRAF1 KW - TRAF2 KW - TRAILR1 KW - TRAILR2 Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-201822 VL - 10 IS - 2024 ER - TY - JOUR A1 - Müller-Sienerth, Nicole A1 - Dietz, Lena A1 - Holtz, Philipp A1 - Kapp, Markus A1 - Grigoleit, Götz Ulrich A1 - Schmuck, Carsten A1 - Wajant, Harald A1 - Siegmund, Daniela T1 - SMAC Mimetic BV6 Induces Cell Death in Monocytes and Maturation of Monocyte-Derived Dendritic Cells JF - PLoS ONE N2 - Background: Compounds mimicking the inhibitory effect of SMAC / DIABLO on X-linked inhibitor of apoptosis (XIAP) have been developed with the aim to achieve sensitization for apoptosis of tumor cells resistant due to deregulated XIAP expression. It turned out that SMAC mimetics also have complex effects on the NF kappa B system and TNF signaling. In view of the overwhelming importance of the NF kappa B transcription factors in the immune system, we analyzed here the effects of the SMAC mimetic BV6 on immune cells. Principal Findings: BV6 induced apoptotic and necrotic cell death in monocytes while T-cells, dendritic cells and macrophages were largely protected against BV6-induced cell death. In immature dendritic cells BV6 treatment resulted in moderate activation of the classical NF kappa B pathway, but it also diminished the stronger NF kappa B-inducing effect of TNF and CD40L. Despite its inhibitory effect on TNF- and CD40L signaling, BV6 was able to trigger maturation of immature DCs as indicated by upregulation of CD83, CD86 and IL12. Significance: The demonstrated effects of SMAC mimetics on immune cells may complicate the development of tumor therapeutic concepts based on these compounds but also arise the possibility to exploit them for the development of immune stimulatory therapies. KW - Kappa-B activation KW - Alpha-dependent apoptosis KW - Caspase-8 activation KW - Cancer KW - TRAF2 KW - CIAP1 KW - Necrosis KW - Complex KW - C-IAP1 KW - RIP1 Y1 - 2011 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-142415 VL - 6 IS - 6 ER - TY - THES A1 - Roos, Claudia T1 - Characterization of tumor necrosis factor-like weak inducer of apoptosis (TWEAK)-induced signaling pathways T1 - Charakterisierung TWEAK induzierter Signalwege N2 - TWEAK ist ein typischer Vertreter der TNF Ligandenfamilie. TWEAK wird als Typ II Transmembranprotein exprimiert, kann jedoch durch proteolytische Prozessierung auch als lösliches Protein freigesetzt werden. In dieser Arbeit wird gezeigt, dass oligomerisiertes TWEAK in Hinblick auf die Aktivierung des klassischen NFκB Signalweges deutlich aktiver ist als lösliches, trimeres TWEAK. Jedoch sind beide TWEAK-Varianten in der Lage, die Depletion von TRAF2 und die Prozessierung von p100, beides Kennzeichen für die Aktivierung des alternativen NFκB Signalweges, zu induzieren. Ebenso wie andere lösliche TNF-Liganden, die ihren entsprechenden Rezeptor nur schwach aktivieren, erlangt lösliches TWEAK durch Oligomerisierung vergleichbare Aktivität zum membrangebundenen Liganden. TRAF2 spielt eine Schlüsselrolle in der TWEAK-vermittelten NFκB Aktivierung. Durch Depletion oder Degradation von TRAF2 fällt die Entscheidung, ob lediglich der alternative oder beide, der klassische und der alternative NFκB Signalweg aktiviert werden. Die Blockade des TWEAK-Rezeptors Fn14 inhibiert die Aktivierung der NFκB Signalwege, ungeachtet welche Form von TWEAK zur Stimulation genutzt wird. Das weist darauf hin, dass die unterschiedlichen Aktivitäten der beiden TWEAK-Varianten in der Induktion des klassischen und alternativen NFκB Signalweges nicht durch die Nutzung verschiedener Rezeptoren verursacht sind. Damit wird in dieser Arbeit anhand von TWEAK zum ersten mal gezeigt, dass ein TNF Ligand in unterschiedlichen Varianten qualitativ unterschiedliche Aktivitäten des entsprechenden TNF Rezeptors auslöst. N2 - TWEAK is a typical member oft he TNF ligand family. Therefore it is initially expressed as a type II transmembrane protein, but a soluble variant can be released by proteolytic processing. In this work it is shown that oligomerized TWEAK is more competent than soluble, trimeric TWEAK regarding the activation of classical NFκB signaling pathway. However, both TWEAK variants are able to induce depletion of TRAF2 and processing of p100, which are hallmarks for the activation of the noncanonical NFκB pathway. Like other solube TNF ligands with no or poor activity on their corresponding receptor, TWEAK gains high activity upon oligomerization resembling the activity of the transmembrane ligand. TRAF2 has a key role in TWEAK-induced NFκB signaling. Depletion or degradation of TRAF2 is crucial for activation of the noncanonial or both, the classical and the noncanonical NFκB pathway. Blocking the TWEAK receptor Fn14 inhibits the activation of NFκB signaling, irrespective of the TWEAK form used for stimulation. This indicates that the different activities of the two TWEAK variants in activation of classical and noncanonical NFκB signaling are not caused by the use of different receptors. Therefore this study on TWEAK is the first reported case where one TNF ligand in different variants induces qualitatively different activities of the corresponding TNF receptor. KW - Tumor-Nekrose-Faktor KW - Signaltransduktion KW - Fn14 KW - NFkappaB KW - p100 KW - TRAF2 KW - TWEAK KW - Fn14 KW - NFkappaB KW - p100 KW - TRAF2 KW - TWEAK Y1 - 2009 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-45295 ER - TY - JOUR A1 - Siegmund, Daniela A1 - Zaitseva, Olena A1 - Wajant, Harald T1 - Fn14 and TNFR2 as regulators of cytotoxic TNFR1 signaling JF - Frontiers in Cell and Developmental Biology N2 - Tumor necrosis factor (TNF) receptor 1 (TNFR1), TNFR2 and fibroblast growth factor-inducible 14 (Fn14) belong to the TNF receptor superfamily (TNFRSF). From a structural point of view, TNFR1 is a prototypic death domain (DD)-containing receptor. In contrast to other prominent death receptors, such as CD95/Fas and the two TRAIL death receptors DR4 and DR5, however, liganded TNFR1 does not instruct the formation of a plasma membrane-associated death inducing signaling complex converting procaspase-8 into highly active mature heterotetrameric caspase-8 molecules. Instead, liganded TNFR1 recruits the DD-containing cytoplasmic signaling proteins TRADD and RIPK1 and empowers these proteins to trigger cell death signaling by cytosolic complexes after their release from the TNFR1 signaling complex. The activity and quality (apoptosis versus necroptosis) of TNF-induced cell death signaling is controlled by caspase-8, the caspase-8 regulatory FLIP proteins, TRAF2, RIPK1 and the RIPK1-ubiquitinating E3 ligases cIAP1 and cIAP2. TNFR2 and Fn14 efficiently recruit TRAF2 along with the TRAF2 binding partners cIAP1 and cIAP2 and can thereby limit the availability of these molecules for other TRAF2/cIAP1/2-utilizing proteins including TNFR1. Accordingly, at the cellular level engagement of TNFR2 or Fn14 inhibits TNFR1-induced RIPK1-mediated effects reaching from activation of the classical NFκB pathway to induction of apoptosis and necroptosis. In this review, we summarize the effects of TNFR2- and Fn14-mediated depletion of TRAF2 and the cIAP1/2 on TNFR1 signaling at the molecular level and discuss the consequences this has in vivo. KW - apoptosis KW - Fn14 KW - necroptosis KW - TNF KW - TNFR1 KW - TNFR2 KW - TRAF2 KW - TWEAK Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-354304 SN - 2296-634X VL - 11 ER -