Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Insights into autophagosome biogenesis from structural and biochemical analyses of the ATG2AWIPI4 complex
View through CrossRef
Abstract
Autophagy is an enigmatic cellular process in which double-membrane compartments, called autophagosomes, form
de novo
adjacent to the endoplasmic reticulum (ER) and package cytoplasmic contents for delivery to lysosomes. Expansion of the precursor membrane phagophore requires autophagy-related 2 (ATG2), which localizes to the phosphatidylinositol-3-phosphate (PI3P)-enriched ER-phagophore junction. We combined single-particle electron microscopy, chemical cross-linking coupled with mass spectrometry, and biochemical analyses to characterize human ATG2A in complex with the PI3P effector WIPI4. ATG2A is a rod-shaped protein that can bridge neighboring vesicles through interactions at each of its tips. WIPI4 binds to one of the tips, enabling the ATG2A-WIPI4 complex to tether a PI3P-containing vesicle to another PI3P-free vesicle. These data suggest that the ATG2A-WIPI4 complex mediates ER-phagophore association and/or tethers vesicles to the ER-phagophore junction, establishing the required organization for phagophore expansion via the transfer of lipid membranes from the ER and/or the vesicles to the phagophore.
Title: Insights into autophagosome biogenesis from structural and biochemical analyses of the ATG2AWIPI4 complex
Description:
Abstract
Autophagy is an enigmatic cellular process in which double-membrane compartments, called autophagosomes, form
de novo
adjacent to the endoplasmic reticulum (ER) and package cytoplasmic contents for delivery to lysosomes.
Expansion of the precursor membrane phagophore requires autophagy-related 2 (ATG2), which localizes to the phosphatidylinositol-3-phosphate (PI3P)-enriched ER-phagophore junction.
We combined single-particle electron microscopy, chemical cross-linking coupled with mass spectrometry, and biochemical analyses to characterize human ATG2A in complex with the PI3P effector WIPI4.
ATG2A is a rod-shaped protein that can bridge neighboring vesicles through interactions at each of its tips.
WIPI4 binds to one of the tips, enabling the ATG2A-WIPI4 complex to tether a PI3P-containing vesicle to another PI3P-free vesicle.
These data suggest that the ATG2A-WIPI4 complex mediates ER-phagophore association and/or tethers vesicles to the ER-phagophore junction, establishing the required organization for phagophore expansion via the transfer of lipid membranes from the ER and/or the vesicles to the phagophore.
Related Results
Insights into membrane dynamics in autophagy
Insights into membrane dynamics in autophagy
In autophagy, the unique double membrane‐bound autophagosomes transiently emerge in the cytoplasm, sequester portion of cytosol and organelles, and eventually fuse with lysosomes t...
Form Follows Force: A theoretical framework for Structural Morphology, and Form-Finding research on shell structures
Form Follows Force: A theoretical framework for Structural Morphology, and Form-Finding research on shell structures
The springing up of freeform architecture and structures introduces many challenges to structural engineers. The main challenge is to generate structural forms with high structural...
Abstract 1697: Pharmacological inhibition of ATM results in mitochondrial biogenesis in AMPK independent manner.
Abstract 1697: Pharmacological inhibition of ATM results in mitochondrial biogenesis in AMPK independent manner.
Abstract
The gene mutated in Ataxia telangiectasia termed Ataxia Telangiectasia Mutated (ATM) encodes for a Serine/Threonine protein kinase which functions at the co...
Astroglia proliferate upon biogenesis of tunneling nanotubes and clearance of α-synuclein toxicities
Astroglia proliferate upon biogenesis of tunneling nanotubes and clearance of α-synuclein toxicities
Abstract
Astrocytic cells are a subtype of glial cells that engulf pathogenic aggregates derived from degenerative neurons to facilitate its degradation. Here, we s...
Ultrastructural analysis of autophagosome organization using mammalian autophagy-deficient cells
Ultrastructural analysis of autophagosome organization using mammalian autophagy-deficient cells
Autophagy is mediated by a unique organelle, the autophagosome. Autophagosome formation involves a number of autophagy-related (ATG) proteins and complicated membrane dynamics. Alt...
New insights into autophagosome–lysosome fusion
New insights into autophagosome–lysosome fusion
ABSTRACT
Macroautophagy (autophagy) is a highly conserved intracellular degradation system that is essential for homeostasis in eukaryotic cells. Due to the wide var...
Improving Memory and Cognition by Enhancing Mitochondrial function and Biogenesis
Improving Memory and Cognition by Enhancing Mitochondrial function and Biogenesis
AbstractBackgroundAlzheimer’s disease (AD) treatment remains to be a challenge; this is due to the fact that the pathogenesis of the disease is very complicated and not well unders...
Pyrroloquinoline Quinone Enhances Cognition of Neuroinflammatory Alzheimer’s Disease Mouse Model via Mitochondrial Biogenesis Regulation
Pyrroloquinoline Quinone Enhances Cognition of Neuroinflammatory Alzheimer’s Disease Mouse Model via Mitochondrial Biogenesis Regulation
Background: Mitochondrial biogenesis has been recently implicated to play an important role in Alzheimer’s disease (AD). Recently it has been reported that brains of AD patients sh...