FIP200 Claw Domain Binding to p62 Promotes Autophagosome Formation at Ubiquitin Condensates

Turco, Eleonora; Witt, Marie; Abert, Christine; Bock-Bierbaum, Tobias; Su, Ming Jai; Trapannone, Riccardo; Sztacho, Martin; Danieli, Alberto; Shi, Xiaoshan; Zaffagnini, Gabriele; Gamper, Annamaria; Schuschnig, Martina; Fracchiolla, Dorotea; Bernklau, Daniel; Romanov, Julia; Hartl, Markus; Hurley, James H.; Daumke, Oliver; Martens, Sascha

doi:10.1016/j.molcel.2019.01.035

Cited by 261 publications

(346 citation statements)

References 59 publications

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“…We have now confirmed that the CC projects away from the center of the NTD. Thus, the symmetry of the NTD matches the symmetry of the FIP200 CC, which is parallel and a dimer (Turco et al, 2019). FIP200 CC has a modal end-toend distance of ~75 nm and is partially flexible, making it ideally suited to its function of connecting cargo to other components of the ULK1 complex and to membranes over substantial distances, much as seen with other coiled-coil based tethers such as the endosomal tether EEA1 (Murray et al, 2016)and the Golgi tether GCC185 (Cheung & Pfeffer, 2015).…”

Section: Discussionmentioning

confidence: 71%

“…Recognition of p62 (Turco et al, 2019) and NDP52 (Vargas et al, 2019) by FIP200 was shown to the key triggering event responsible for recruiting the ULK1 complex to cargo. The binding sites of p62 and NDP52 were mapped to the Claw (Turco et al, 2019) and CC C-terminus (Ravenhill et al, 2019) respectively, and the structure of the Claw and a small part of the CC were determined (Turco et al, 2019). All of the many downstream events remained unclear, however, as did the structure of the great majority of FIP200.…”

Section: Discussionmentioning

confidence: 99%

“…It is clear that the FIP200 N-terminus is separated from the C-terminus Claw domain. This spatially separates the site of ULK1 assembly at the NTD and the binding site of the cargo adaptors NDP52 near the C-terminal end of the CC (Ravenhill et al, 2019;Vargas et al, 2019) and p62 at the CLAW domain C-terminal to the CC (Turco et al, 2019).…”

Section: Full Length Fip200 Forms An Elongated Scaffold For Ulk1 and mentioning

confidence: 99%

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The autophagy adaptor NDP52 and the FIP200 coiled-coil allosterically activate ULK1 complex membrane recruitment

Shi

Chang

Yokom

et al. 2020

Preprint

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The selective autophagy pathways of xenophagy and mitophagy are initiated when the adaptor NDP52 recruits the ULK1 complex to autophagic cargo. Hydrogen-deuterium exchange coupled to mass spectrometry (HDX-MS) was used to map the membrane and NDP52 binding sites of the ULK1 complex to unique regions of the coiled coil of the FIP200 subunit. Electron microscopy of the full-length ULK1 complex shows that the FIP200 coiled coil projects away from the crescent-shaped FIP200 N-terminal domain dimer. NDP52 allosterically stimulates membrane-binding by FIP200 and the ULK1 complex by promoting a more dynamic conformation of the membrane-binding portion of the FIP200 coiled coil. Giant unilamellar vesicle (GUV) reconstitution confirmed that membrane recruitment by the ULK1 complex is triggered by NDP52 engagement. These data reveal how the allosteric linkage between NDP52 and the ULK1 complex could drive the first membrane recruitment event of phagophore biogenesis in xenophagy and mitophagy.

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Section: Discussionmentioning

confidence: 71%

Section: Discussionmentioning

confidence: 99%

Section: Full Length Fip200 Forms An Elongated Scaffold For Ulk1 and mentioning

confidence: 99%

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The autophagy adaptor NDP52 and the FIP200 coiled-coil allosterically activate ULK1 complex membrane recruitment

Shi

Chang

Yokom

et al. 2020

Preprint

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“…Parkin-mediated poly-ubiquitination of outer mitochondrial membrane proteins triggers the recruitment of autophagy receptors such as optineurin (OPTN), calcium binding and coiled-coil domain 2 (CALCOCO2, better known as NDP52) and Tax1 binding protein 1 (TAX1BP1), concomitantly with the activation of the TANK binding kinase 1 (TBK1) that phosphorylates OPTN (at serine 177, 473, and 513) further enhancing its ubiquitin chain binding ability (Wild et al, 2011;Wong and Holzbaur, 2014;Heo et al, 2015;Lazarou et al, 2015). Once recruited to the mitochondria, autophagy receptors can employ initiator proteins from the autophagic machinery such as unc-51 like autophagy activating kinase 1 (ULK1), zinc finger FYVE-type containing 1 (ZFYVE1, better known as DFCP1) and WD repeat domain, phosphoinositide interacting 1 (WIPI1, also known as ATG18) to assemble the autophagosome (Wong and Holzbaur, 2014;Lazarou et al, 2015;Ravenhill et al, 2019;Turco et al, 2019;Vargas et al, 2019) and ATG8s, which could further recruit autophagy receptors to amplify mitophagy signals (Padman et al, 2019). The key function of the ULK1-containing complex for selective autophagy has been recently discussed elsewhere (Turco et al, 2020).…”

Section: Pink1 and Parkin-regulated Mitophagymentioning

confidence: 99%

Mitophagy: An Emerging Role in Aging and Age-Associated Diseases

Guo

Kroemer

2020

Front. Cell Dev. Biol.

260

159

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Mitochondrial dysfunction constitutes one of the hallmarks of aging and is characterized by irregular mitochondrial morphology, insufficient ATP production, accumulation of mitochondrial DNA (mtDNA) mutations, increased production of mitochondrial reactive oxygen species (ROS) and the consequent oxidative damage to nucleic acids, proteins and lipids. Mitophagy, a mitochondrial quality control mechanism enabling the degradation of damaged and superfluous mitochondria, prevents such detrimental effects and reinstates cellular homeostasis in response to stress. To date, there is increasing evidence that mitophagy is significantly impaired in several human pathologies including aging and age-related diseases such as neurodegenerative disorders, cardiovascular pathologies and cancer. Therapeutic interventions aiming at the induction of mitophagy may have the potency to ameliorate these dysfunctions. In this review, we summarize recent findings on mechanisms controlling mitophagy and its role in aging and the development of human pathologies.

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“…Client proteins are polyubiquitinated by the E3 ligase STUB1/ CHIP (STIP1 homology and U-box containing protein 1) and subsequently sequestered into cytoplasmic puncta that are labeled with SQSTM1/p62 (also called p62 bodies). SQSTM1/p62 functions as a multi-adaptor protein by binding simultaneously to ubiquitin and the autophagosome-associated protein MAP1LC3/ LC3 (microtubule associated protein 1 light chain 3), allowing misfolded proteins to be inserted into autophagosomes, followed by lysosomal degradation (Ciuffa et al 2015;Wurzer et al 2015;Cha-Molstad et al 2017;Zaffagnini et al 2018;Turco et al 2019). Overexpression of wild-type HSPB8 in neuronal cells led to an increased colocalization of autophagosomes with lysosomes while overexpression of mutant HSPB8 (K141N) reduced colocalization between autophagosomes and lysosomes (Kwok et al 2011).…”

Section: Hspb8mentioning

confidence: 99%

Small heat shock proteins in neurodegenerative diseases

Vendredy

Adriaenssens

Timmerman

2020

Cell Stress and Chaperones

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Small heat shock proteins are ubiquitously expressed chaperones, yet mutations in some of them cause tissue-specific diseases.Here, we will discuss how small heat shock proteins give rise to neurodegenerative disorders themselves while we will also highlight how these proteins can fulfil protective functions in neurodegenerative disorders caused by protein aggregation. The first half of this paper will be focused on how mutations in HSPB1, HSPB3, and HSPB8 are linked to inherited peripheral neuropathies like Charcot-Marie-Tooth (CMT) disease and distal hereditary motor neuropathy (dHMN). The second part of the paper will discuss how small heat shock proteins are linked to neurodegenerative disorders like Alzheimer's, Parkinson's, and Huntington's disease.

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FIP200 Claw Domain Binding to p62 Promotes Autophagosome Formation at Ubiquitin Condensates

Cited by 261 publications

References 59 publications

The autophagy adaptor NDP52 and the FIP200 coiled-coil allosterically activate ULK1 complex membrane recruitment

The autophagy adaptor NDP52 and the FIP200 coiled-coil allosterically activate ULK1 complex membrane recruitment

Mitophagy: An Emerging Role in Aging and Age-Associated Diseases

Small heat shock proteins in neurodegenerative diseases

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