Abstract
The LUBAC ubiquitin ligase complex, composed of the HOIP, HOIL-1L, and SHARPIN subunits, stimulates the canonical nuclear factor-κB (NF-κB) activation pathways through its Met1-linked linear ubiquitination activity. Here we performed cellular and mathematical modeling analyses of the LUBAC involvement in the T cell receptor (TCR)-mediated NF-κB activation pathway, using the Jurkat human T cell line. LUBAC is indispensable for TCR-induced NF-κB and T cell activation, and transiently associates with and linearly ubiquitinates the CARMA1-BCL10-MALT1 (CBM) complex, through the catalytic HOIP subunit. In contrast, the linear ubiquitination of NEMO, a substrate of the TNF-α-induced canonical NF-κB activation pathway, was limited during the TCR pathway. Among deubiquitinases, OTULIN, but not CYLD, plays a major role in downregulating LUBAC-mediated TCR signaling. Mathematical modeling indicated that linear ubiquitination of the CBM complex accelerates the activation of IκB kinase (IKK), as compared with the activity induced by linear ubiquitination of NEMO alone. Moreover, simulations of the sequential linear ubiquitination of the CBM complex suggested that the allosteric regulation of linear (de)ubiquitination of CBM subunits is controlled by the ubiquitin-linkage lengths. These results indicated that, unlike the TNF-α-induced NF-κB activation pathway, the TCR-mediated NF-κB activation in T lymphocytes has a characteristic mechanism to induce LUBAC-mediated NF-κB activation.
Highlights
Nuclear factor-kB (NF-kB) is a pivotal transcription factor controlling innate and acquired immune responses, inflammation, and anti-apoptosis [1, 2]
Efficient phosphorylation of the canonical NF-kB factors, such as p105, p65 and IkBa, degradation and regeneration of IkBa, and intranuclear translocation of p65 were detected in parental Jurkat and RNF31-KO+HOIP-wild type (WT) cells upon T cell receptor (TCR)-stimulation, NF-kB activation was markedly suppressed in RNF31-KO cells
These results suggested that the LUBAC activity is indispensable for the TCR-mediated NF-kB activation
Summary
Nuclear factor-kB (NF-kB) is a pivotal transcription factor controlling innate and acquired immune responses, inflammation, and anti-apoptosis [1, 2]. NF-kB activation is typically classified into canonical and noncanonical pathways [1, 2]. The canonical NF-kB pathway is activated by stimulations with proinflammatory cytokines, pathogen-associated molecular patterns (PAMPs), and antigen. Activation of the IkB kinase (IKK) complex, composed of the IKKa and IKKb kinases and a regulatory subunit of NEMO, results in the nuclear translocation of NFkB factors, composed of homo/hetero-dimers of p50, RelA (p65), and c-Rel [1, 2]. The noncanonical NF-kB pathway functions in different aspects of immune and inflammatory responses through the activation of the IKKa dimer, and predominantly translocates homo/hetero-dimers of p52 and RelB into the nucleus [3]
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