2023
RBG Motif Bridge-Like Lipid Transport Proteins: Structure, Functions, and Open Questions
Hanna M, Guillén-Samander A, De Camilli P. RBG Motif Bridge-Like Lipid Transport Proteins: Structure, Functions, and Open Questions. Annual Review Of Cell And Developmental Biology 2023, 39: 409-434. PMID: 37406299, DOI: 10.1146/annurev-cellbio-120420-014634.Peer-Reviewed Original ResearchLipid transfer proteinMembrane contact sitesVesicle-mediated trafficTransport of lipidsPutative physiological roleEukaryotic cellsEndocytic pathwayContact sitesLipid transportPhysiological roleTransfer proteinProteinHydrophobic channelRod-like structureLipidsEntire lengthDevelopmental disordersCytosolMutationsNew familyTransportPathwayMechanismMembraneCellsATG9 vesicles comprise the seed membrane of mammalian autophagosomes
Olivas T, Wu Y, Yu S, Luan L, Choi P, Guinn E, Nag S, De Camilli P, Gupta K, Melia T. ATG9 vesicles comprise the seed membrane of mammalian autophagosomes. Journal Of Cell Biology 2023, 222: e202208088. PMID: 37115958, PMCID: PMC10148236, DOI: 10.1083/jcb.202208088.Peer-Reviewed Original ResearchConceptsAtg9 vesiclesMammalian autophagosomesStyrene maleic acid lipid particlesLipid scramblase activityLC3-IIAutophagosomes formAutophagosome membraneMature autophagosomesScramblase activityAutophagosome formationAtg9Lipid transportMembrane growthAutophagosomesNanoscale organizationProtein-mediated transferProteinMembrane surface areaOrganellesVesiclesSeed membraneMembraneLipid particlesLipidsDifferent stages
2021
Insights into VPS13 properties and function reveal a new mechanism of eukaryotic lipid transport
Leonzino M, Reinisch KM, De Camilli P. Insights into VPS13 properties and function reveal a new mechanism of eukaryotic lipid transport. Biochimica Et Biophysica Acta (BBA) - Molecular And Cell Biology Of Lipids 2021, 1866: 159003. PMID: 34216812, PMCID: PMC8325632, DOI: 10.1016/j.bbalip.2021.159003.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutophagosomesAutophagy-Related ProteinsCryoelectron MicroscopyDisease Models, AnimalEukaryotic CellsHeredodegenerative Disorders, Nervous SystemHumansHydrophobic and Hydrophilic InteractionsLipid BilayersLipid MetabolismMitochondrial MembranesMutationProtein DomainsStructure-Activity RelationshipVesicular Transport ProteinsYeastsConceptsLipid transportMembrane contact sitesDomain protein familyOccurrence of proteinsVPS13 proteinsEukaryotic cellsNumerous proteinsProtein familyIntracellular membranesProtein bridgeHydrophobic grooveContact sitesMembrane growthLipid transferBilayer lipidsNovel mechanismVps13New mechanismProteinLipidsAtg2OrganellesAdjacent bilayersDiscoveryMechanism
2020
Role of VPS13, a protein with similarity to ATG2, in physiology and disease
Ugur B, Hancock-Cerutti W, Leonzino M, De Camilli P. Role of VPS13, a protein with similarity to ATG2, in physiology and disease. Current Opinion In Genetics & Development 2020, 65: 61-68. PMID: 32563856, PMCID: PMC7746581, DOI: 10.1016/j.gde.2020.05.027.Peer-Reviewed Original ResearchConceptsAutophagy protein ATG2N-terminal halfVPS13 proteinsMolecular functionsCellular processesFamily proteinsVps13Contact sitesAtg2Intracellular organellesFunctional studiesNovel mechanismProteinSimilar roleHydrophobic channelStructural studiesNeurodegenerative disordersPhysiologyDirect transferOrganellesSimilarityMutationsRoleLipidsBilayers