VPS13D bridges the ER to mitochondria and peroxisomes via Miro

Guillén-Samander, Andrés; Leonzino, Marianna; Hanna, Michael G.; Tang, Ni; Shen, Haihong; Camilli, Pietro De

doi:10.1083/jcb.202010004

Cited by 100 publications

(138 citation statements)

References 75 publications

(165 reference statements)

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“…Consistent with other control conditions (Control RNAi and Vps13D heterozygous animals), these objects were not observed in drp1 heterozygous animals. Similar to Vps13D RNAi, and Drp1 RNAi conditions, the PolyUb+/mitoGFP-intermediates in drp1 mutants engage with a phagophore, as they stain positive for Atg8A/B (Fig 4F) 74.4% of the time. Overall, these results demonstrate that neurons with either disrupted Vps13D or Drp1 contain mitophagy intermediates that uniquely lack mitochondrial matrix proteins, and are engaged with a phagophore.…”

Section: (S5 Fig)mentioning

confidence: 78%

“…Vps13D's role in mitochondrial fission likely relies on its function in inter-organelle phospholipid transport, since contacts between the endoplasmic reticulum (ER) and mitochondria have been shown to play a direct role in fission [73]. While this manuscript was under review, further details regarding the cellular localization of Vps13D in cultured cells was reported [74]. Guillén-Samander and colleagues demonstrated that Vps13D localizes to ER/mitochondria and ER/peroxisomal contact sites through associations with mitochondrial/peroxisomal protein Miro and the ER protein Vap.…”

Section: Vps13 Proteins and Cellular Functionmentioning

confidence: 99%

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Mitochondrial fission, integrity and completion of mitophagy require separable functions of Vps13D in Drosophila neurons

et al. 2021

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A healthy population of mitochondria, maintained by proper fission, fusion, and degradation, is critical for the long-term survival and function of neurons. Here, our discovery of mitophagy intermediates in fission-impaired Drosophila neurons brings new perspective into the relationship between mitochondrial fission and mitophagy. Neurons lacking either the ataxia disease gene Vps13D or the dynamin related protein Drp1 contain enlarged mitochondria that are engaged with autophagy machinery and also lack matrix components. Reporter assays combined with genetic studies imply that mitophagy both initiates and is completed in Drp1 impaired neurons, but fails to complete in Vps13D impaired neurons, which accumulate compromised mitochondria within stalled mito-phagophores. Our findings imply that in fission-defective neurons, mitophagy becomes induced, and that the lipid channel containing protein Vps13D has separable functions in mitochondrial fission and phagophore elongation.

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Section: (S5 Fig)mentioning

confidence: 78%

Section: Vps13 Proteins and Cellular Functionmentioning

confidence: 99%

Mitochondrial fission, integrity and completion of mitophagy require separable functions of Vps13D in Drosophila neurons

et al. 2021

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“…Peroxisomes and the ER must exchange lipids as the synthesis of some lipids, for example, ether phospholipids, begins in peroxisomes but is completed in the ER [132,133]. The lipid transfer protein VPS13D has been discovered at both ER-peroxisome and ERmitochondria contacts, where it interacts with Miro [134], and another, VPS13A, has been found at ER-mitochondria contacts [124], and this lipid transport has been shown to be important for peroxisome biogenesis [135]. The machinery involved in creating ER-peroxisome MCSs has recently been discovered [136] and there is some evidence for non-vesicular ER to peroxisome lipid transport [137].…”

Section: Mcss: Lipid Exchangementioning

confidence: 99%

Intertwined and Finely Balanced: Endoplasmic Reticulum Morphology, Dynamics, Function, and Diseases

Perkins

Allan

2021

Cells

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The endoplasmic reticulum (ER) is an organelle that is responsible for many essential subcellular processes. Interconnected narrow tubules at the periphery and thicker sheet-like regions in the perinuclear region are linked to the nuclear envelope. It is becoming apparent that the complex morphology and dynamics of the ER are linked to its function. Mutations in the proteins involved in regulating ER structure and movement are implicated in many diseases including neurodegenerative diseases such as Alzheimer’s, Parkinson’s, and amyotrophic lateral sclerosis (ALS). The ER is also hijacked by pathogens to promote their replication. Bacteria such as Legionella pneumophila and Chlamydia trachomatis, as well as the Zika virus, bind to ER morphology and dynamics-regulating proteins to exploit the functions of the ER to their advantage. This review covers our understanding of ER morphology, including the functional subdomains and membrane contact sites that the organelle forms. We also focus on ER dynamics and the current efforts to quantify ER motion and discuss the diseases related to ER morphology and dynamics.

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“…This structure is not present in higher eukaryotes, but intensive research has uncovered many other tethering complexes, which may have specific roles in the different processes governed by ER-mitochondria contacts (reviews: [11,128]). Of the numerous complexes identified so far, four contain the VAPs linked to different FFAT-containing proteins on the mitochondrial surface, specifically: protein tyrosine phosphatase-interacting protein 51 (PTPIP51) [60], vacuolar protein sorting (VPS) 13A/ D [42,59,130], and mitoguardin 2 (MIGA2) [65,66] (see Table 1).…”

Section: Effects Of Vapb Depletion In Cellular and Animal Models 41 Er-mitochondria Contacts (Figure 1c-box 1)mentioning

confidence: 99%

“…Studies aimed at defining the full complement of VAP interactors have revealed that significant deviations from the initially defined consensus are tolerated [21,[37][38][39]. The complexity of the VAP interactome (VAPome) is further increased by the discovery that some motifs that deviate from the initially defined consensus are regulated by phosphorylation (phospho-FFAT motifs [40][41][42]). The uniquely large number of interactions of the VAP proteins underlies the very many functions that they carry out, as summarised in Table 1.…”

Section: Introductionmentioning

confidence: 99%

The Link between VAPB Loss of Function and Amyotrophic Lateral Sclerosis

Borgese

Iacomino

Colombo

et al. 2021

Cells

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The VAP proteins are integral adaptor proteins of the endoplasmic reticulum (ER) membrane that recruit a myriad of interacting partners to the ER surface. Through these interactions, the VAPs mediate a large number of processes, notably the generation of membrane contact sites between the ER and essentially all other cellular membranes. In 2004, it was discovered that a mutation (p.P56S) in the VAPB paralogue causes a rare form of dominantly inherited familial amyotrophic lateral sclerosis (ALS8). The mutant protein is aggregation-prone, non-functional and unstable, and its expression from a single allele appears to be insufficient to support toxic gain-of-function effects within motor neurons. Instead, loss-of-function of the single wild-type allele is required for pathological effects, and VAPB haploinsufficiency may be the main driver of the disease. In this article, we review the studies on the effects of VAPB deficit in cellular and animal models. Several basic cell physiological processes are affected by downregulation or complete depletion of VAPB, impinging on phosphoinositide homeostasis, Ca2+ signalling, ion transport, neurite extension, and ER stress. In the future, the distinction between the roles of the two VAP paralogues (A and B), as well as studies on motor neurons generated from induced pluripotent stem cells (iPSC) of ALS8 patients will further elucidate the pathogenic basis of p.P56S familial ALS, as well as of other more common forms of the disease.

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VPS13D bridges the ER to mitochondria and peroxisomes via Miro

Cited by 100 publications

References 75 publications

Mitochondrial fission, integrity and completion of mitophagy require separable functions of Vps13D in Drosophila neurons

Mitochondrial fission, integrity and completion of mitophagy require separable functions of Vps13D in Drosophila neurons

Intertwined and Finely Balanced: Endoplasmic Reticulum Morphology, Dynamics, Function, and Diseases

The Link between VAPB Loss of Function and Amyotrophic Lateral Sclerosis

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