The RING Domain and First Zinc Finger of TRAF6 Coordinate Signaling by Interleukin-1, Lipopolysaccharide, and RANKL

Lamothe, Betty; Campos, Alejandro D.; Webster, William K.; Gopinathan, Ambily; Hur, Lana; Darnay, Bryant G.

doi:10.1074/jbc.m802749200

Cited by 111 publications

(103 citation statements)

References 31 publications

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“…Our observations are consistent with earlier reports describing the role of TRAF6 as a key ubiquitin ligase and TAK1 and NEMO as major ubiquitinated pilars that facilitate recruitment of signaling molecules (21,25). In support of this notion, recent evidence points to the paradigm that TRAF6-mediated ubiquitination is an important step for the formation and activation of a signaling complex that includes UBC13, TAK1, and its adaptors TAB1 and TAB2 (40,(45)(46)(47)(48). In a more recent study, Walsh et al, (42) showed that the RING finger of TRAF6 is required for the activation of TAK1, and TRAF6 was found to interact with TAK1.…”

Section: Discussionmentioning

confidence: 94%

Polyubiquitination Events Mediate Polymethylmethacrylate (PMMA) Particle Activation of NF-κB Pathway

Yamanaka

Karuppaiah

Abu‐Amer

2011

Journal of Biological Chemistry

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The pathologic response to implant wear-debris constitutes a major component of inflammatory osteolysis and remains under intense investigation. Polymethylmethacrylate (PMMA) particles, which are released during implant wear and loosening, constitute a major culprit by virtue of inducing inflammatory and osteolytic responses by macrophages and osteoclasts, respectively. Recent work by several groups has identified important cellular entities and secreted factors that contribute to inflammatory osteolysis. In previous work, we have shown that PMMA particles contribute to inflammatory osteolysis through stimulation of major pathways in monocytes/macrophages, primarily NF-B and MAP kinases. The former pathway requires assembly of large IKK complex encompassing IKK1, IKK2, and IKK␥/NEMO. We have shown recently that interfering with the NF-B and MAPK activation pathways, through introduction of inhibitors and decoy molecules, impedes PMMA-induced inflammation and osteolysis in mouse models of experimental calvarial osteolysis and inflammatory arthritis. In this study, we report that PMMA particles activate the upstream transforming growth factor ␤-activated kinase-1 (TAK1), which is a key regulator of signal transduction cascades leading to activation of NF-B and AP-1 factors. More importantly, we found that PMMA particles induce TAK1 binding to NEMO and UBC13. In addition, we show that PMMA particles induce TRAF6 and UBC13 binding to NEMO and that lack of TRAF6 significantly attenuates NEMO ubiquitination. Altogether, these observations suggest that PMMA particles induce ubiquitination of NEMO, an event likely mediated by TRAF6, TAK1, and UBC13. Our findings provide important information for better understanding of the mechanisms underlying PMMA particle-induced inflammatory responses.

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Section: Discussionmentioning

confidence: 94%

Polyubiquitination Events Mediate Polymethylmethacrylate (PMMA) Particle Activation of NF-κB Pathway

Yamanaka

Karuppaiah

Abu‐Amer

2011

Journal of Biological Chemistry

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“…MEFs derived from WT, Irgm1/m3 −/− , TRAF6 −/− , p62 −/− , and GBP chr3−/− mice were previously described (6,(59)(60)(61). Primary murine BMMs were isolated from the tibia and femurs of 2-4-mo-old mice as described before (10).…”

Section: Methodsmentioning

confidence: 99%

Ubiquitin systems mark pathogen-containing vacuoles as targets for host defense by guanylate binding proteins

Haldar

Foltz

Finethy

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

144

237

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Many microbes create and maintain pathogen-containing vacuoles (PVs) as an intracellular niche permissive for microbial growth and survival. The destruction of PVs by IFNγ-inducible guanylate binding protein (GBP) and immunity-related GTPase (IRG) host proteins is central to a successful immune response directed against numerous PV-resident pathogens. However, the mechanism by which IRGs and GBPs cooperatively detect and destroy PVs is unclear. We find that host cell priming with IFNγ prompts IRG-dependent association of Toxoplasma- and Chlamydia-containing vacuoles with ubiquitin through regulated translocation of the E3 ubiquitin ligase tumor necrosis factor (TNF) receptor associated factor 6 (TRAF6). This initial ubiquitin labeling elicits p62-mediated escort and deposition of GBPs to PVs, thereby conferring cell-autonomous immunity. Hypervirulent strains of Toxoplasma gondii evade this process via specific rhoptry protein kinases that inhibit IRG function, resulting in blockage of downstream PV ubiquitination and GBP delivery. Our results define a ubiquitin-centered mechanism by which host cells deliver GBPs to PVs and explain how hypervirulent parasites evade GBP-mediated immunity.

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“…Other laboratories have reported that RANKL signaling cannot be restored to TRAF6 KO monocytes by the reexpression of TRAF6[C70A] (17,39). This could be related to the problem discussed in the preceding section in refolding this E3 ligase-inactive mutant in MEFs to a conformation that can support signaling.…”

Section: Il-1 Signaling In Mefs Frommentioning

confidence: 99%

“…Although truncated forms of TRAF6 lacking the really interesting new gene (RING) domain were reported to restore IL-1-signaling to TRAF6 knockout (KO) mouse embryonic fibroblasts (MEFs) many years ago (16), other laboratories reported subsequently that the E3 ligase-inactive TRAF6[C70A] mutant could not (12,17,18). These reports led to widespread acceptance of the notion that the E3 ligase activity of TRAF6 is essential for IL-1 signaling.…”

mentioning

confidence: 99%

Roles of the TRAF6 and Pellino E3 ligases in MyD88 and RANKL signaling

Strickson

Emmerich

Goh

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

100

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It is widely accepted that the essential role of TRAF6 in vivo is to generate the Lys63-linked ubiquitin (K63-Ub) chains needed to activate the "master" protein kinase TAK1. Here, we report that TRAF6 E3 ligase activity contributes to but is not essential for the IL-1-dependent formation of K63-Ub chains, TAK1 activation, or IL-8 production in human cells, because Pellino1 and Pellino2 generate the K63-Ub chains required for signaling in cells expressing E3 ligaseinactive TRAF6 mutants. The IL-1-induced formation of K63-Ub chains and ubiquitylation of IRAK1, IRAK4, and MyD88 was abolished in TRAF6/Pellino1/Pellino2 triple-knockout (KO) cells, but not in TRAF6 KO or Pellino1/2 double-KO cells. The reexpression of E3 ligaseinactive TRAF6 mutants partially restored IL-1 signaling in TRAF6 KO cells, but not in TRAF6/Pellino1/Pellino2 triple-KO cells. Pellino1-generated K63-Ub chains activated the TAK1 complex in vitro with similar efficiently to TRAF6-generated K63-Ub chains. The early phase of TLR signaling and the TLR-dependent secretion of IL-10 (controlled by IRAKs 1 and 2) was only reduced modestly in primary macrophages from knockin mice expressing the E3 ligase-inactive TRAF6[L74H] mutant, but the late-phase production of IL-6, IL-12, and TNFα (controlled only by the pseudokinase IRAK2) was abolished. RANKLinduced signaling in macrophages and the differentiation of bone marrow to osteoclasts was similar in TRAF6[L74H] and wild-type cells, explaining why the bone structure and teeth of the TRAF6[L74H] mice was normal, unlike TRAF6 KO mice. We identify two essential roles of TRAF6 that are independent of its E3 ligase activity.T NF receptor-associated factor 6 (TRAF6) is essential for many biological processes (1). These include the myeloid differentiation primary response gene 88 (MyD88) signaling network of the innate immune system, RANK ligand (RANKL)-dependent signaling and osteoclast formation, lymph node organogenesis (2), and the development of hair follicles, sweat glands, and sebaceous glands (3). TRAF6 expression is also needed for CD40 signaling in B cells (4), the maturation and development of dendritic cells (5), and the regulation of T-cell function (6, 7).In innate immunity, nearly all Toll-like receptors (TLRs), as well as the receptors of the interleukin 1 (IL-1) family of cytokines, initiate signaling by recruiting the adaptor protein MyD88. This is followed by the interaction of IL-1-receptor (IL-R)-associated kinase 4 (IRAK4) with MyD88 and then the interaction of other IRAK family members with IRAK4, to form an oligomeric complex, termed the Myddosome (8, 9). IRAK1 and IRAK2 can then interact with TRAF6 (10, 11) and induce TRAF6 dimerization (12), which triggers the activation of its E3 ligase activity (13).TRAF6 catalyzes the formation of Lys63-linked ubiquitin (K63-Ub) chains in vitro in the presence of Ubc13-Uev1a (also called UBE2N-UBE2V1), an E2 conjugating enzyme that directs the formation of this type of ubiquitin linkage (14, 15). Although truncated forms of TRAF6 lacking the really...

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The RING Domain and First Zinc Finger of TRAF6 Coordinate Signaling by Interleukin-1, Lipopolysaccharide, and RANKL

Cited by 111 publications

References 31 publications

Polyubiquitination Events Mediate Polymethylmethacrylate (PMMA) Particle Activation of NF-κB Pathway

Polyubiquitination Events Mediate Polymethylmethacrylate (PMMA) Particle Activation of NF-κB Pathway

Ubiquitin systems mark pathogen-containing vacuoles as targets for host defense by guanylate binding proteins

Roles of the TRAF6 and Pellino E3 ligases in MyD88 and RANKL signaling

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