Rachel Quinn scite author profile

Tumor necrosis factor (TNF) superfamily receptors typically induce both NF-B and JNK activation by recruiting the TRAF2 signal transduction protein to their cytoplasmic domain. The type 2 TNF receptor (TNFR2), however, is a poor activator of these signaling pathways despite its high TRAF2 binding capability. This apparent paradox is resolved here by the demonstration that TNFR2 carries a novel carboxyl-terminal TRAF2-binding site (T2bs-C) that prevents the delivery of activation signals from its conventional TRAF2-binding site (T2bs-N). T2bs-C does not conform to canonical TRAF2 binding motifs and appears to bind TRAF2 indirectly via an as yet unidentified intermediary. Specific inactivation of T2bs-N by site-directed mutagenesis eliminated most of the TRAF2 recruited to the TNFR2 cytoplasmic domain but had no effect on ligand-dependent activation of the NF-B or JNK pathways. By contrast, inactivation of T2bs-C had little effect on the amount of TRAF2 recruited but greatly enhanced ligand-dependent NF-B and JNK activation. In wild-type TNFR2 therefore, T2bs-C acts in a dominant fashion to attenuate signaling by the intrinsically more active T2bs-N but not by preventing TRAF2 recruitment. This unique uncoupling of TRAF2 recruitment and signaling at T2bs-N may be important in the modulation by TNFR2 of signaling through coexpressed TNFR1.

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Rachel Quinn

Complete structural characterisation of the mammalian and Drosophila TRAF genes: implications for TRAF evolution and the role of RING finger splice variants

Tumor Necrosis Factor Receptor 2 (TNFR2) Signaling Is Negatively Regulated by a Novel, Carboxyl-terminal TNFR-associated Factor 2 (TRAF2)-binding Site

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