Functional Dissection of the TBK1 Molecular Network

Gonçalves, Adriana; Bürckstümmer, Tilmann; Dixit, Evelyn; Scheicher, Ruth; Górna, Maria W.; Karayel, Evren; Sugar, Cristina; Stukalov, Alexey; Berg, Tiina; Královics, Róbert; Planyavsky, Melanie; Bennett, Keiryn L.; Colinge, Jacques; Superti‐Furga, Giulio

doi:10.1371/journal.pone.0023971

Cited by 117 publications

(144 citation statements)

References 45 publications

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“…We have previously shown that TBK1 physically associates with those intracellular Salmonella that are positive for the TBK1 adaptor proteins Nap1 and Sintbad and the autophagy cargo receptor NDP52 (Thurston et al , 2009). To test whether the function of TBK1 in anti‐bacterial autophagy requires interactions with its adaptor proteins we truncated TBK1 at its C‐terminus (TBK1 N685 hereafter referred to as TBK1 ΔC ), thereby generating a molecule deficient in binding to all its known adaptors, that is Nap1, Sintbad, Tank, and optineurin (Fig EV1B) (Goncalves et al , 2011), while maintaining kinase activity as indicated by the activation of an ISRE reporter (Fig EV1C). Complementation of Tbk1 −/− MEFS with TBK1 ΔC failed to restrict proliferation of S .…”

Section: Resultsmentioning

confidence: 99%

Recruitment of TBK 1 to cytosol‐invading Salmonella induces WIPI 2‐dependent antibacterial autophagy

et al. 2016

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Mammalian cells deploy autophagy to defend their cytosol against bacterial invaders. Anti‐bacterial autophagy relies on the core autophagy machinery, cargo receptors, and “eat‐me” signals such as galectin‐8 and ubiquitin that label bacteria as autophagy cargo. Anti‐bacterial autophagy also requires the kinase TBK1, whose role in autophagy has remained enigmatic. Here we show that recruitment of WIPI2, itself essential for anti‐bacterial autophagy, is dependent on the localization of catalytically active TBK1 to the vicinity of cytosolic bacteria. Experimental manipulation of TBK1 recruitment revealed that engagement of TBK1 with any of a variety of Salmonella‐associated “eat‐me” signals, including host‐derived glycans and K48‐ and K63‐linked ubiquitin chains, suffices to restrict bacterial proliferation. Promiscuity in recruiting TBK1 via independent signals may buffer TBK1 functionality from potential bacterial antagonism and thus be of evolutionary advantage to the host.

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Section: Resultsmentioning

confidence: 99%

Recruitment of TBK 1 to cytosol‐invading Salmonella induces WIPI 2‐dependent antibacterial autophagy

et al. 2016

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“…It forms a family with proteins harboring coiled-coil domains and a TBK1-binding domain, namely, TANK and TBKBP1 (23). AZI2 interacts with TBK1 and IKK-i, and was shown to be involved in IFN-b induction in response to TLR and RLR stimulation (32,33). AZI2 was also found to be involved in the activation of IRF3 in response to poly(I:C) (25).…”

Section: Discussionmentioning

confidence: 99%

“…6E) (32,33). Although expression of the coiled-coil domains of AZI2 (1-158) failed to rescue the defect in DC differentiation in AZI2 -/-BM cells, expression of AZI2 (1-270) containing the TBK1-binding domain greatly increased the proportion of CD11c + cells (Fig.…”

Section: Azi2 Is Required For the Proliferation Of Gm-dcs Via Tbk1mentioning

confidence: 94%

Critical Role of AZI2 in GM-CSF–Induced Dendritic Cell Differentiation

Fukasaka

Ori

Kawagoe

et al. 2013

The Journal of Immunology

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TNFR-associated factor family member–associated NF-κB activator (TANK)–binding kinase 1 (TBK1) is critical for the activation of IFN regulatory factor 3 and type I IFN production upon virus infection. A set of TBK1-binding proteins, 5-azacytidine–induced gene 2 (AZI2; also known as NAP1), TANK, and TBK1-binding protein 1 (TBKBP1), have also been implicated in the production of type I IFNs. Among them, TANK was found to be dispensable for the responses against virus infection. However, physiological roles of AZI2 and TBKBP1 have yet to be clarified. In this study, we found that none of these TBK1-binding proteins is critical for type I IFN production in mice. In contrast, AZI2, but not TBKBP1, is critical for the differentiation of conventional dendritic cells (cDCs) from bone marrow cells in response to GM-CSF. AZI2 controls GM-CSF–induced cell cycling of bone marrow cells via TBK1. GM-CSF–derived DCs from AZI2-deficient mice show severe defects in cytokine production and T cell activation both in vitro and in vivo. Reciprocally, overexpression of AZI2 results in efficient generation of cDCs, and the cells show enhanced T cell activation in response to Ag stimulation. Taken together, AZI2 expression is critical for the generation of cDCs by GM-CSF and can potentially be used to increase the efficiency of immunization by cDCs.

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“…S1). This observation may underlie the ability of IKK␤ and IKK␣ to form homo-or heterodimer complexes (33) and the significant difference in dimerization interfaces between IKKB and TBK1 (6,30,39).…”

Section: Analysis Of Protein Constructs and Crystallization-twomentioning

confidence: 99%

Crystal Structure of a Human IκB Kinase β Asymmetric Dimer

Liu

Misquitta

Olland

et al. 2013

Journal of Biological Chemistry

123

141

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Background: IB kinase ␤ is a key regulator in the NB signaling pathway. Results: Crystal structure of a human IKK␤ asymmetric dimer shows one kinase active site phosphorylated and in the active conformation and the other unphosphorylated and inactive. Conclusion: Depending on the phosphorylation state, IKK␤ can adopt distinct dimeric geometry. Significance: High resolution structure of hIKK␤ provides structural basis for its activation and potential use of inhibitor design.

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Functional Dissection of the TBK1 Molecular Network

Cited by 117 publications

References 45 publications

Recruitment of TBK 1 to cytosol‐invading Salmonella induces WIPI 2‐dependent antibacterial autophagy

Recruitment of TBK 1 to cytosol‐invading Salmonella induces WIPI 2‐dependent antibacterial autophagy

Critical Role of AZI2 in GM-CSF–Induced Dendritic Cell Differentiation

Crystal Structure of a Human IκB Kinase β Asymmetric Dimer

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