2023
Growing thin — How bulk lipid transport drives expansion of the autophagosome membrane but not of its lumen
Melia T. Growing thin — How bulk lipid transport drives expansion of the autophagosome membrane but not of its lumen. Current Opinion In Cell Biology 2023, 83: 102190. PMID: 37385155, PMCID: PMC10528516, DOI: 10.1016/j.ceb.2023.102190.Peer-Reviewed Original ResearchATG9 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
Atg39 selectively captures inner nuclear membrane into lumenal vesicles for delivery to the autophagosome
Chandra S, Mannino PJ, Thaller DJ, Ader NR, King MC, Melia TJ, Lusk CP. Atg39 selectively captures inner nuclear membrane into lumenal vesicles for delivery to the autophagosome. Journal Of Cell Biology 2021, 220: e202103030. PMID: 34714326, PMCID: PMC8575018, DOI: 10.1083/jcb.202103030.Peer-Reviewed Original ResearchMeSH KeywordsAutophagosomesAutophagyAutophagy-Related ProteinsCytoplasmic VesiclesGreen Fluorescent ProteinsNuclear EnvelopeProtein DomainsReceptors, Cytoplasmic and NuclearSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsStructure-Activity RelationshipTime FactorsVacuolesVesicular Transport ProteinsConceptsInner nuclear membraneNuclear envelope lumenOuter nuclear membraneNuclear membraneSplit-GFP reporterNuclear envelope localizationINM proteinsAutophagy apparatusEnvelope localizationLumenal vesiclesLumenal domainCargo adaptorsAtg39Sequence elementsCorrelative lightVesiclesAutophagosomesMembraneNucleophagyAdaptorReporterProteinOverexpressionMotif
2019
ATG2 transports lipids to promote autophagosome biogenesis
Valverde DP, Yu S, Boggavarapu V, Kumar N, Lees JA, Walz T, Reinisch KM, Melia TJ. ATG2 transports lipids to promote autophagosome biogenesis. Journal Of Cell Biology 2019, 218: 1787-1798. PMID: 30952800, PMCID: PMC6548141, DOI: 10.1083/jcb.201811139.Peer-Reviewed Original ResearchConceptsProtein-mediated lipid transferLipid transferLipid transfer proteinTransfers lipidsAutophagosome biogenesisAutophagosome membraneDonor membranesN-terminal fragmentDifferent organellesAutophagy proteinsAutophagosome formationKO cellsContact sitesSpecific machineryLipid homeostasisClear functionAtg2BiogenesisProteinDelivery of lipidsLipidsATG2AMembraneOrganellesAutophagosomesMaturation and Clearance of Autophagosomes in Neurons Depends on a Specific Cysteine Protease Isoform, ATG-4.2
Hill SE, Kauffman KJ, Krout M, Richmond JE, Melia TJ, Colón-Ramos DA. Maturation and Clearance of Autophagosomes in Neurons Depends on a Specific Cysteine Protease Isoform, ATG-4.2. Developmental Cell 2019, 49: 251-266.e8. PMID: 30880001, PMCID: PMC6482087, DOI: 10.1016/j.devcel.2019.02.013.Peer-Reviewed Original ResearchConceptsGenetic screenForward genetic screenClearance of autophagosomesProtease isoformsAutophagosomesCell bodiesAutophagosome clearanceSynaptic materialNeurodegenerative diseasesMaturationRetrograde transportNeuronal activityAbnormal accumulationNeuronsSingle neuronsClearanceGABARAPVivoTraffickingAutophagyScreenIsoformsMechanismMembraneSynapse
2018
Delipidation of mammalian Atg8-family proteins by each of the four ATG4 proteases
Kauffman KJ, Yu S, Jin J, Mugo B, Nguyen N, O'Brien A, Nag S, Lystad AH, Melia TJ. Delipidation of mammalian Atg8-family proteins by each of the four ATG4 proteases. Autophagy 2018, 14: 992-1010. PMID: 29458288, PMCID: PMC6103404, DOI: 10.1080/15548627.2018.1437341.Peer-Reviewed Original ResearchConceptsAtg8-family proteinsAtg4 proteasesATG8 proteinsMammalian Atg8 proteinsMacroautophagy/autophagySimilar enzymatic activityProteolytic processing eventsLIR motifATG4 familyProcessing eventsPhysical anchoringProteinEnzymatic activityProteaseSoluble substratesATG4BTerminal glycinePhagophoreHomologLipidsDelipidationAutophagosomesAutophagyMotifSubstrate
2014
Lipidation of the LC3/GABARAP family of autophagy proteins relies on a membrane-curvature-sensing domain in Atg3
Nath S, Dancourt J, Shteyn V, Puente G, Fong WM, Nag S, Bewersdorf J, Yamamoto A, Antonny B, Melia TJ. Lipidation of the LC3/GABARAP family of autophagy proteins relies on a membrane-curvature-sensing domain in Atg3. Nature Cell Biology 2014, 16: 415-424. PMID: 24747438, PMCID: PMC4111135, DOI: 10.1038/ncb2940.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAmino Acid MotifsAnimalsApoptosis Regulatory ProteinsAutophagy-Related Protein 7Autophagy-Related Protein 8 FamilyAutophagy-Related ProteinsCell MembraneCytoskeletal ProteinsHeLa CellsHumansHydrophobic and Hydrophilic InteractionsLiposomesMembrane ProteinsMiceMice, KnockoutMicrofilament ProteinsMicrotubule-Associated ProteinsMutationPhosphatidylethanolaminesRatsSignal TransductionStress, PhysiologicalTransfectionUbiquitin-Activating EnzymesUbiquitin-Conjugating EnzymesConceptsLipid-packing defectsLC3/GABARAP familyLC3/GABARAP lipidationAmino-terminal amphipathic helixE2-like enzymeGABARAP familyAutophagic machineryIsolation membraneAmphipathic helixIntracellular membranesAutophagy proteinsRescue experimentsATG3LipidationCurved rimProteinMotifPhysiologic roleMembranePhagophoreAutophagosomesMachineryHelixEnzyme
2011
SNARE Proteins Are Required for Macroautophagy
Nair U, Jotwani A, Geng J, Gammoh N, Richerson D, Yen WL, Griffith J, Nag S, Wang K, Moss T, Baba M, McNew JA, Jiang X, Reggiori F, Melia TJ, Klionsky DJ. SNARE Proteins Are Required for Macroautophagy. Cell 2011, 146: 290-302. PMID: 21784249, PMCID: PMC3143362, DOI: 10.1016/j.cell.2011.06.022.Peer-Reviewed Original ResearchConceptsAutophagosome biogenesisAutophagosome membrane expansionV-SNAREs Sec22Vacuole/lysosomeDouble-membrane autophagosomesT-SNAREsAtg9 transportSNARE proteinsDe novo formationAutophagy componentsFusion eventsMembrane expansionTubulovesicular clustersNovo formationAtg8BiogenesisMacroautophagyProteinPhysiological concentrationsSec22Atg9Ykt6Tlg2OrganellesAutophagosomes