Allyson L. Anding scite author profile

The selective clearance of organelles by autophagy is critical for the regulation of cellular homeostasis in organisms from yeast to humans. Removal of damaged organelles clears the cell of potentially toxic byproducts and enables reuse of organelle components for bioenergetics. Thus, defects in organelle clearance may be detrimental to the health of the cells, contributing to cancer, neurodegeneration and inflammatory diseases. Organelle-specific autophagy can clear mitochondria, peroxisomes, lysosomes, endoplasmic reticulum, chloroplasts and the nucleus. Here, we review our understanding of the mechanisms that regulate the clearance of organelles by autophagy and highlight gaps in our knowledge of these processes.

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Vps13D Encodes a Ubiquitin-Binding Protein that Is Required for the Regulation of Mitochondrial Size and Clearance

Anding

et al. 2018

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The clearance of mitochondria by autophagy, mitophagy, is important for cell and organism health [1], and known to be regulated by ubiquitin. During Drosophila intestine development, cells undergo a dramatic reduction in cell size and clearance of mitochondria that depends on autophagy, the E1 ubiquitin-activating enzyme Uba1, and ubiquitin [2]. Here we screen a collection of putative ubiquitin-binding domain-encoding genes for cell size reduction and autophagy phenotypes. We identify the endosomal sorting complex required for transport (ESCRT) components TSG101 and Vps36, as well as the novel gene Vps13D. Vps13D is an essential gene that is necessary for autophagy, mitochondrial size, and mitochondrial clearance in Drosophila. Interestingly, a similar mitochondrial phenotype is observed in VPS13D mutant human cells. The ubiquitin-associated (UBA) domain of Vps13D binds K63 ubiquitin chains, and mutants lacking the UBA domain have defects in mitochondrial size and clearance and exhibit semi-lethality, highlighting the importance of Vps13D ubiquitin binding in both mitochondrial health and development. VPS13D mutant cells possess phosphorylated DRP1 and mitochondrial fission factor (MFF) as well as DRP1 association with mitochondria, suggesting that VPS13D functions downstream of these known regulators of mitochondrial fission. In addition, the large Vps13D mitochondrial and cell size phenotypes are suppressed by decreased mitochondrial fusion gene function. Thus, these results provide a previously unknown link between ubiquitin, mitochondrial size regulation, and autophagy.

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Autophagy in Cell Life and Cell Death

2015

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VPS13D promotes peroxisome biogenesis

Baldwin

Wang

Kanfer

et al. 2021

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The VPS13 gene family consists of VPS13A–D in mammals. Although all four genes have been linked to human diseases, their cellular functions are poorly understood, particularly those of VPS13D. We generated and characterized knockouts of each VPS13 gene in HeLa cells. Among the individual knockouts, only VPS13D-KO cells exhibit abnormal mitochondrial morphology. Additionally, VPS13D loss leads to either partial or complete peroxisome loss in several transformed cell lines and in fibroblasts derived from a VPS13D mutation–carrying patient with recessive spinocerebellar ataxia. Our data show that VPS13D regulates peroxisome biogenesis.

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The Unhydrolyzable Fenretinide Analogue 4-Hydroxybenzylretinone Induces the Proapoptotic Genes GADD153 (CHOP) and Bcl-2–Binding Component 3 (PUMA) and Apoptosis that Is Caspase- Dependent and Independent of the Retinoic Acid Receptor

Anding¹,

Chapman²,

Barnett

et al. 2007

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Allyson L. Anding

Cleaning House: Selective Autophagy of Organelles

Vps13D Encodes a Ubiquitin-Binding Protein that Is Required for the Regulation of Mitochondrial Size and Clearance

Autophagy in Cell Life and Cell Death

VPS13D promotes peroxisome biogenesis

The Unhydrolyzable Fenretinide Analogue 4-Hydroxybenzylretinone Induces the Proapoptotic Genes GADD153 (CHOP) and Bcl-2–Binding Component 3 (PUMA) and Apoptosis that Is Caspase- Dependent and Independent of the Retinoic Acid Receptor

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