Yuanjiao Du scite author profile

Upon starvation, cells rewire their metabolism, switching from glucose-based metabolism to mitochondrial oxidation of fatty acids, which require the transfer of FAs from lipid droplets (LDs) to mitochondria at mitochondria−LD membrane contact sites (MCSs). However, factors responsible for FA transfer at these MCSs remain uncharacterized. Here, we demonstrate that vacuolar protein sorting-associated protein 13D (VPS13D), loss-of-function mutations of which cause spastic ataxia, coordinates FA trafficking in conjunction with the endosomal sorting complex required for transport (ESCRT) protein tumor susceptibility 101 (TSG101). The VPS13 adaptor-binding domain of VPS13D and TSG101 directly remodels LD membranes in a cooperative manner. The lipid transfer domain of human VPS13D binds glycerophospholipids and FAs in vitro. Depletion of VPS13D, TSG101, or ESCRT-III proteins inhibits FA trafficking from LDs to mitochondria. Our findings suggest that VPS13D mediates the ESCRT-dependent remodeling of LD membranes to facilitate FA transfer at mitochondria-LD contacts.

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VPS13D interacts with VCP/p97 and negatively regulates ER- mitochondrial interactions

Wang

Xiong

et al. 2021

MBoC

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Membrane contact sites (MCSs) between the endoplasmic reticulum (ER) and mitochondria are emerging as critical hubs for diverse cellular events, and alterations in the extent of these contacts are linked to neurodegenerative diseases. However, the mechanisms that control ER-mitochondrial interactions are so far elusive. Here, we demonstrate a key role of vacuolar protein sorting-associated protein 13D (VPS13D) in the negative regulation of ER-mitochondrial MCSs. VPS13D suppression results in extensive ER-mitochondrial tethering, a phenotype that can be substantially rescued by suppression of the tethering proteins VAPB and PTPIP51. VPS13D interacts with valosin-containing protein (VCP/p97) to control the level of ER-resident VAPB at contacts. VPS13D is required for the stability of p97. Functionally, VPS13D suppression leads to severe defects in the mitochondrial morphology, mitochondrial cellular distribution and mitochondrial DNA synthesis. Together our results suggest that VPS13D negatively regulates the ER-mitochondrial MCSs partially through its interactions with VCP/p97. [Media: see text]

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Tex2 is required for lysosomal functions at TMEM55-dependent ER membrane contact sites

Chang

Gao

et al. 2023

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ER tubules form and maintain membrane contact sites (MCSs) with late endosomes/lysosomes (LE/lys). The molecular composition and cellular functions of these MCSs are poorly understood. Here, we find that Tex2, an SMP domain-containing lipid transfer protein conserved in metazoan and yeast, is a tubular ER protein and is recruited to ER–LE/lys MCSs by TMEM55, phosphatases that convert PI(4,5)P2 to PI5P on LE/lys. We show that the Tex2–TMEM55 interaction occurs between an N-terminal region of Tex2 and a catalytic motif in the PTase domain of TMEM55. The Tex2–TMEM55 interaction can be regulated by endosome-resident type 2 PI4K activities. Functionally, Tex2 knockout results in defects in lysosomal trafficking, digestive capacity, and lipid composition of LE/lys membranes. Together, our data identify Tex2 as a tubular ER protein that resides at TMEM55-dependent ER–LE/lys MCSs required for lysosomal functions.

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Oligomeric CHMP7 mediates three-way ER junctions and ER-mitochondria interactions

Chu

Wang

et al. 2022

Cell Death Differ

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Yuanjiao Du

An ESCRT-dependent step in fatty acid transfer from lipid droplets to mitochondria through VPS13D−TSG101 interactions

VPS13D interacts with VCP/p97 and negatively regulates ER- mitochondrial interactions

Tex2 is required for lysosomal functions at TMEM55-dependent ER membrane contact sites

Oligomeric CHMP7 mediates three-way ER junctions and ER-mitochondria interactions

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