Polyubiquitin-dependent recruitment of NEMO/IKKγ into T cell receptor signaling microclusters is controlled by IKKβ kinase activity

Abstract

Abstract The IkB kinase (IKK) complex coordinates inflammatory responses by activating canonical NFkB downstream of immune receptors. This complex consists of the kinases IKKa/β and the dimeric adaptor subunit NEMO (NFkB essential modulator protein). NEMO mutations cause immunodeficiencies and impair antigen receptor function. Canonical NFkB activation by immunoreceptors, such as the T cell receptor (TCR), requires the assembly of the Carma1/Bcl10/Malt1 (CBM) signalosome. While, functional studies and in vitro interactions, place the IKK complex downstream of the CBM signalosome, the spatial relationship between these complexes has never been observed in intact immune cells. We observed that NEMO is recruited into TCR microclusters and membrane compartments within ~70 seconds of TCR engagement. Point mutations impacting the K63-linked and linear polyubiquitin ubiquitin-binding domains of NEMO selectively impair NEMO recruitment into TCR microclusters. We verified the involvement of these polyubiquitin chains by showing that inhibitors of either the K63-specific Uev1A/Ubc13 ubiquitin E2 ligase or the linear ubiquitin activating complex (LUBAC) prevent NEMO from entering TCR microclusters. To examine whether the entire IKK complex is recruited to the TCR, we co-expressed IKKb chimeras with NEMO. We observed that wild-type (WT), but not kinase-dead, IKKb caused NEMO microclusters to disappear. Similarly, the treatment of cells expressing WT IKKb with inhibitors of IKKβ or its upstream activator, TAK1, restored the recruitment of IKKβ and NEMO into microclusters. These results suggest that the IKK complex is recruited to the TCR via linear- and K63-linked polyubiquitin chains and then dissociates from the TCR via IKKβ activity.