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Despite the great success of TNF blockers in the treatment of autoimmune diseases and the identification of TNF as a factor that influences the development of tumors in many ways, the role of TNFR2 in tumor biology and its potential suitability as a therapeutic target in cancer therapy have long been underestimated. This has been fundamentally changed with the identification of TNFR2 as a regulatory T-cell (Treg)-stimulating factor and the general clinical breakthrough of immunotherapeutic approaches. However, considering TNFR2 as a sole immunosuppressive factor in the tumor microenvironment does not go far enough. TNFR2 can also co-stimulate CD8\(^+\) T-cells, sensitize some immune and tumor cells to the cytotoxic effects of TNFR1 and/or acts as an oncogene. In view of the wide range of cancer-associated TNFR2 activities, it is not surprising that both antagonists and agonists of TNFR2 are considered for tumor therapy and have indeed shown overwhelming anti-tumor activity in preclinical studies. Based on a brief summary of TNFR2 signaling and the immunoregulatory functions of TNFR2, we discuss here the main preclinical findings and insights gained with TNFR2 agonists and antagonists. In particular, we address the question of which TNFR2-associated molecular and cellular mechanisms underlie the observed anti-tumoral activities of TNFR2 agonists and antagonists.
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.