Suppression of LUBAC-mediated linear ubiquitination by a specific interaction between LUBAC and the deubiquitinases CYLD and OTULIN. Takiuchi, T; Nakagawa, T; Tamiya, H; Fujita, H; Sasaki, Y; Saeki, Y; Takeda, H; Sawasaki, T; Buchberger, A; Kimura, T; Iwai, K Genes to cells : devoted to molecular & cellular mechanisms
19
254-72
2014
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Linear ubiquitin chains generated by the linear ubiquitin chain assembly complex (LUBAC) play an important role in NF-κB activation. However, the regulation of linear ubiquitin chain generation by LUBAC is not well characterized. Here, we identified two deubiquitinating enzymes (DUBs), ovarian tumor DUB with linear linkage specificity (OTULIN/Gumby/FAM105B) and cylindromatosis (CYLD) that can cleave linear polyubiquitin chains and interact with LUBAC via the N-terminal PNGase/UBA or UBX (PUB) domain of HOIP, a catalytic subunit of LUBAC. HOIP interacts with both CYLD and OTULIN even in unstimulated cells. The interaction of CYLD and OTULIN with HOIP synergistically suppresses LUBAC-mediated linear polyubiquitination and NF-κB activation. Moreover, introduction of a HOIP mutant unable to bind either deubiquitinase into HOIP-null cells augments the activation of NF-κB by TNF-α stimulation. Thus, the interactions between these two deubiquitinases and the LUBAC ubiquitin ligase are involved in controlling the extent of TNF-α-induced NF-κB activation in cells by fine-tuning the generation of linear ubiquitin chains by LUBAC. The interaction of HOIP with OTULIN is also involved in OTULIN suppressing the canonical Wnt signaling pathway activation by LUBAC. Our observations provide molecular insights into the roles of ligase-deubiquitinase interactions in regulating molecular events resulting from linear ubiquitin conjugation. | 24461064
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Pathogen blocks host death receptor signalling by arginine GlcNAcylation of death domains. Li, S; Zhang, L; Yao, Q; Li, L; Dong, N; Rong, J; Gao, W; Ding, X; Sun, L; Chen, X; Chen, S; Shao, F Nature
501
242-6
2013
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The tumour necrosis factor (TNF) family is crucial for immune homeostasis, cell death and inflammation. These cytokines are recognized by members of the TNF receptor (TNFR) family of death receptors, including TNFR1 and TNFR2, and FAS and TNF-related apoptosis-inducing ligand (TRAIL) receptors. Death receptor signalling requires death-domain-mediated homotypic/heterotypic interactions between the receptor and its downstream adaptors, including TNFR1-associated death domain protein (TRADD) and FAS-associated death domain protein (FADD). Here we discover that death domains in several proteins, including TRADD, FADD, RIPK1 and TNFR1, were directly inactivated by NleB, an enteropathogenic Escherichia coli (EPEC) type III secretion system effector known to inhibit host nuclear factor-κB (NF-κB) signalling. NleB contained an unprecedented N-acetylglucosamine (GlcNAc) transferase activity that specifically modified a conserved arginine in these death domains (Arg 235 in the TRADD death domain). NleB GlcNAcylation (the addition of GlcNAc onto a protein side chain) of death domains blocked homotypic/heterotypic death domain interactions and assembly of the oligomeric TNFR1 complex, thereby disrupting TNF signalling in EPEC-infected cells, including NF-κB signalling, apoptosis and necroptosis. Type-III-delivered NleB also blocked FAS ligand and TRAIL-induced cell death by preventing formation of a FADD-mediated death-inducing signalling complex (DISC). The arginine GlcNAc transferase activity of NleB was required for bacterial colonization in the mouse model of EPEC infection. The mechanism of action of NleB represents a new model by which bacteria counteract host defences, and also a previously unappreciated post-translational modification. | 23955153
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Linear ubiquitin assembly complex negatively regulates RIG-I- and TRIM25-mediated type I interferon induction. Inn, KS; Gack, MU; Tokunaga, F; Shi, M; Wong, LY; Iwai, K; Jung, JU Molecular cell
41
354-65
2010
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Upon detection of viral RNA, retinoic acid-inducible gene I (RIG-I) undergoes TRIM25-mediated K63-linked ubiquitination, leading to type I interferon (IFN) production. In this study, we demonstrate that the linear ubiquitin assembly complex (LUBAC), comprised of two RING-IBR-RING (RBR)-containing E3 ligases, HOIL-1L and HOIP, independently targets TRIM25 and RIG-I to effectively suppress virus-induced IFN production. RBR E3 ligase domains of HOIL-1L and HOIP bind and induce proteasomal degradation of TRIM25, whereas the NZF domain of HOIL-1L competes with TRIM25 for RIG-I binding. Consequently, both actions by the HOIL-1L/HOIP LUBAC potently inhibit RIG-I ubiquitination and antiviral activity, but in a mechanistically separate manner. Conversely, the genetic deletion or depletion of HOIL-1L and HOIP robustly enhances virus-induced type I IFN production. Taken together, the HOIL-1L/HOIP LUBAC specifically suppresses RIG-I ubiquitination and activation by inducing TRIM25 degradation and inhibiting TRIM25 interaction with RIG-I, resulting in the comprehensive suppression of the IFN-mediated antiviral signaling pathway. | 21292167
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Involvement of linear polyubiquitylation of NEMO in NF-kappaB activation. Tokunaga, F; Sakata, S; Saeki, Y; Satomi, Y; Kirisako, T; Kamei, K; Nakagawa, T; Kato, M; Murata, S; Yamaoka, S; Yamamoto, M; Akira, S; Takao, T; Tanaka, K; Iwai, K Nature cell biology
11
123-32
2009
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Nuclear factor-kappaB (NF-kappaB) is a key transcription factor in inflammatory, anti-apoptotic and immune processes. The ubiquitin pathway is crucial in regulating the NF-kappaB pathway. We have found that the LUBAC ligase complex, composed of the two RING finger proteins HOIL-1L and HOIP, conjugates a head-to-tail-linked linear polyubiquitin chain to substrates. Here, we demonstrate that LUBAC activates the canonical NF-kappaB pathway by binding to NEMO (NF-kappaB essential modulator, also called IKKgamma) and conjugates linear polyubiquitin chains onto specific Lys residues in the CC2-LZ domain of NEMO in a Ubc13-independent manner. Moreover, in HOIL-1 knockout mice and cells derived from these mice, NF-kappaB signalling induced by pro-inflammatory cytokines such as TNF-alpha and IL-1beta was suppressed, resulting in enhanced TNF-alpha-induced apoptosis in hepatocytes of HOIL-1 knockout mice. These results indicate that LUBAC is involved in the physiological regulation of the canonical NF-kappaB activation pathway through linear polyubiquitylation of NEMO. | 19136968
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A ubiquitin ligase complex assembles linear polyubiquitin chains. Kirisako, T; Kamei, K; Murata, S; Kato, M; Fukumoto, H; Kanie, M; Sano, S; Tokunaga, F; Tanaka, K; Iwai, K The EMBO journal
25
4877-87
2005
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The ubiquitin system plays important roles in the regulation of numerous cellular processes by conjugating ubiquitin to target proteins. In most cases, conjugation of polyubiquitin to target proteins regulates their function. In the polyubiquitin chains reported to date, ubiquitin monomers are linked via isopeptide bonds between an internal Lys and a C-terminal Gly. Here, we report that a protein complex consisting of two RING finger proteins, HOIL-1L and HOIP, exhibits ubiquitin polymerization activity by recognizing ubiquitin moieties of proteins. The polyubiquitin chain generated by the complex is not formed by Lys linkages, but by linkages between the C- and N-termini of ubiquitin, indicating that the ligase complex possesses a unique feature to assemble a novel head-to-tail linear polyubiquitin chain. Moreover, the complex regulates the stability of Ub-GFP (a GFP fusion protein with an N-terminal ubiquitin). The linear polyubiquitin chain generated post-translationally may function as a new modulator of proteins. | 17006537
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