Phosphorylation of the Autophagy Receptor Optineurin Restricts
            <i>Salmonella</i>
            Growth

Wild, Philipp S.; Farhan, Hesso; McEwan, David G.; Wagner, Sebastian; Rogov, Vladimir V.; Brady, Nathan R.; Richter, Benjamin; Korać, Jelena; Waidmann, Oliver; Choudhary, Chunaram; Dötsch, Volker; Bumann, Dirk; Đikić, Ivan

doi:10.1126/science.1205405

Cited by 1,125 publications

(1,385 citation statements)

References 25 publications

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“…To further investigate the mechanism of how TBK1 recruits WIPI1 and WIPI2 to cytosol‐invading bacteria, we depleted cells of optineurin, the only known TBK1 substrate in anti‐bacterial autophagy (Wild et al , 2011). Cells lacking optineurin recruited WIPI1 and WIPI2B normally to S .…”

Section: Resultsmentioning

confidence: 99%

“…Typhimurium contains different linkage types; at minimum, M1‐ and K63‐linked chains are present but their functional contribution to anti‐bacterial autophagy remains unknown (van Wijk et al , 2012). NDP52 can bind M1‐, K48‐, and K63‐linked ubiquitin chains (Wild et al , 2011) with similar affinities for di‐ubiquitin molecules and tetra‐ubiquitin chains that are M1‐linked (Xie et al , 2015). To investigate whether NDP52 binds longer chains in a linkage‐specific manner, we exposed NDP52 to an equimolar mixture of M1‐, K48‐, and K63‐linked ubiquitin tetramers (Fig 7A).…”

Section: Resultsmentioning

confidence: 99%

“…Typhimurium by controlling autophagy. Consistent with TBK1 controlling anti‐bacterial autophagy is the enzyme's ability to phosphorylate functionally important sites in cargo receptors, namely the LC3‐interacting region (LIR) of optineurin (Wild et al , 2011) and the ubiquitin‐binding site of p62 (Pilli et al , 2012), thereby enhancing their affinity for LC3 and ubiquitin, respectively. While the spatial and temporal control of the tethering function of cargo receptors appears as an important contribution of TBK1 to anti‐bacterial autophagy, we found that in Tbk1 −/− MEFs, LC3 is still recruited to S .…”

Section: Discussionmentioning

confidence: 99%

“…VPS34 produces membrane patches rich in phosphatidylinositol 3‐phosphate (PI(3)P) that recruit PI(3)P‐binding proteins such as WIPI and DFCP1 to the site of phagophore formation (Axe et al , 2008). In contrast to the non‐selective engulfment of cytosol into starvation‐induced autophagosomes, anti‐bacterial autophagy is mediated by cargo receptors including NDP52, optineurin, and p62 (Thurston et al , 2009; Zheng et al , 2009; Wild et al , 2011). Cargo receptors bind members of the LC3/GABARAP family of ubiquitin‐like proteins on the autophagosomal membrane and specific “eat‐me” signals associated with cytosol‐invading bacteria, thereby selectively tethering bacteria to phagophore membranes (Weidberg et al , 2011; Rogov et al , 2014).…”

Section: Introductionmentioning

confidence: 99%

“…TBK1 accumulates in the vicinity of cytosol‐exposed bacteria together with its adaptor proteins Nap1, Sintbad, and their binding partner NDP52 (Fujita et al , 2003; Ryzhakov & Randow, 2007; Thurston et al , 2009; Verlhac et al , 2015). TBK1 also associates with optineurin and it has been reported to phosphorylate both optineurin and p62, thereby enhancing their affinity for LC3B and ubiquitin, respectively (Morton et al , 2008; Wild et al , 2011; Pilli et al , 2012; Heo et al , 2015; Richter et al , 2016). While these findings imply that TBK1 strengthens the tethering function of cargo receptors, TBK1 has also been suggested to promote autophagosome maturation (Pilli et al , 2012).…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

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%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

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

et al. 2016

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TBK1Gene Duplication and Normal-Tension Glaucoma

Ritch

Darbro²,

Menon

et al. 2014

JAMA Ophthalmol

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IMPORTANCE Normal-tension glaucoma (NTG) is a common cause of vision loss.OBJECTIVE To investigate the role of TANK binding kinase 1 (TBK1) gene duplications in NTG to gain insights into the causes of glaucoma that occurs at low intraocular pressure (IOP). DESIGN, SETTING, AND PARTICIPANTSIn this multicenter case-control study, we investigated patients who met the criteria for NTG, including glaucomatous optic neuropathy, visual field defects, and maximum recorded untreated IOP of 21 mm Hg or less, and matched controls. Participants (N = 755) were recruited from Southampton, United Kingdom (180 patients and 178 controls), Rochester, Minnesota (65 patients and 12 controls), New York, New York (96 patients and 16 controls), and Iowa City, Iowa (208 controls).MAIN OUTCOMES AND MEASURES Detection of TBK1 gene duplications and comparison of the extent of the identified DNA that is duplicated with prior TBK1 copy number variations associated with NTG.RESULTS A TBK1 gene duplication was detected in 1 of 96 patients (1.0%) from New York and none of the controls. Analysis of duplication borders with comparative genome hybridization demonstrated that this patient has a novel duplication that has not been previously reported. No gene duplications were detected in any of the other cohorts of patients or controls.CONCLUSIONS AND RELEVANCE Duplication of the TBK1 gene is a rare cause of NTG. The identification of another case of NTG attributed to TBK1 gene duplication strengthens the case that this mutation causes glaucoma.

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The TBK1‐binding domain of optineurin promotes type I interferon responses

et al. 2016

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Pathogen-associated molecular pattern (PAMP) recognition leads to TANK-binding kinase (TBK1) polyubiquitination and activation by trans-autophosphorylation, resulting in IFN-β production. Here we describe a mouse model of optineurin insufficiency (OptnΔ157) in which the TBK1-interacting N-terminus of optineurin was deleted. PAMP-stimulated cells from OptnΔ157 mice had reduced TBK1 activity, no phosphorylation of optineurin Ser187, and mounted low IFN-β responses. In contrast to pull-down assays where the presence of N-terminus was sufficient for TBK1 binding, both the N-terminal and the ubiquitin-binding regions of optineurin were needed for PAMP-induced binding. This report establishes optineurin as a positive regulator TBK1 via a bipartite interaction between these molecules.

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Phosphorylation of the Autophagy Receptor Optineurin Restricts Salmonella Growth

Cited by 1,125 publications

References 25 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

TBK1Gene Duplication and Normal-Tension Glaucoma

The TBK1‐binding domain of optineurin promotes type I interferon responses

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