2023
Identity, structure, and function of the mitochondrial permeability transition pore: controversies, consensus, recent advances, and future directions
Bernardi P, Gerle C, Halestrap A, Jonas E, Karch J, Mnatsakanyan N, Pavlov E, Sheu S, Soukas A. Identity, structure, and function of the mitochondrial permeability transition pore: controversies, consensus, recent advances, and future directions. Cell Death & Differentiation 2023, 30: 1869-1885. PMID: 37460667, PMCID: PMC10406888, DOI: 10.1038/s41418-023-01187-0.Peer-Reviewed Original ResearchMeSH KeywordsConsensusMitochondriaMitochondrial Membrane Transport ProteinsMitochondrial MembranesMitochondrial Permeability Transition PoreConceptsMitochondrial permeability transition poreMitochondrial permeability transitionAdenine nucleotide translocasePermeability transition poreATP synthase dimersTransition poreInner mitochondrial membrane permeabilityC subunit ringOuter mitochondrial membraneMitochondrial membrane permeabilityDeath of cellsMPTP openingNecrotic cell deathMitochondrial membraneNucleotide translocaseTransient mPTP openingMitochondrial bioenergeticsSub-conductance statesMolecular identityPermeability transitionCell deathPhysiological roleNon-selective channelsDiscovery decadesMembrane permeability
2022
Mitochondrial ATP synthase c-subunit leak channel triggers cell death upon loss of its F1 subcomplex
Mnatsakanyan N, Park HA, Wu J, He X, Llaguno MC, Latta M, Miranda P, Murtishi B, Graham M, Weber J, Levy RJ, Pavlov EV, Jonas EA. Mitochondrial ATP synthase c-subunit leak channel triggers cell death upon loss of its F1 subcomplex. Cell Death & Differentiation 2022, 29: 1874-1887. PMID: 35322203, PMCID: PMC9433415, DOI: 10.1038/s41418-022-00972-7.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateCell DeathHumansMitochondrial Membrane Transport ProteinsMitochondrial Permeability Transition PoreMitochondrial Proton-Translocating ATPasesProton-Translocating ATPasesConceptsMitochondrial permeability transitionATP synthase c-subunitCell deathMitochondrial ATP synthaseChannel activityCellular energy productionLeak channelsVoltage-gated ion channelsF1 subcomplexATP synthaseC subunitInner membraneProkaryotic hostsCell stressPermeability transitionIon channelsGating mechanismOsmotic changesLarge conductanceC-ringChannels triggersNeuronal deathF1SubcomplexOsmotic gradient
2019
ATP Synthase C-Subunit-Deficient Mitochondria Have a Small Cyclosporine A-Sensitive Channel, but Lack the Permeability Transition Pore
Neginskaya MA, Solesio ME, Berezhnaya EV, Amodeo GF, Mnatsakanyan N, Jonas EA, Pavlov EV. ATP Synthase C-Subunit-Deficient Mitochondria Have a Small Cyclosporine A-Sensitive Channel, but Lack the Permeability Transition Pore. Cell Reports 2019, 26: 11-17.e2. PMID: 30605668, PMCID: PMC6521848, DOI: 10.1016/j.celrep.2018.12.033.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateBiological TransportCyclosporineHumansMitochondrial Membrane Transport ProteinsMitochondrial Permeability Transition PoreConceptsMitochondrial PT poreC subunitPermeability transitionMitochondrial inner membrane permeabilityPermeability transition poreInner membrane permeabilityATP synthasePT poreBongkrekic acidLarge conductance channelTransition poreMitochondrial functionCell deathParental cellsMitochondriaChannel activityMembrane permeabilityLow-conductance channelsConductance channelLow conductanceSensitive channelsSynthaseConductanceCellsDisruption
2016
The Mitochondrial Permeability Transition Pore and ATP Synthase
Beutner G, Alavian K, Jonas EA, Porter GA. The Mitochondrial Permeability Transition Pore and ATP Synthase. Handbook Of Experimental Pharmacology 2016, 240: 21-46. PMID: 27590224, PMCID: PMC7439278, DOI: 10.1007/164_2016_5.BooksMeSH KeywordsAdenosine TriphosphateAnimalsApoptosisElectron TransportEnergy MetabolismHumansMitochondrial Membrane Transport ProteinsMitochondrial Permeability Transition PoreMitochondrial Proton-Translocating ATPasesConceptsPermeability transition poreElectron transport chainATP synthaseGeneration of ATPMitochondrial permeability transition poreATP generationTransition poreCell deathC subunit ringMitochondrial ATP generationFo subunitsEmbryonic mouse heartPTP openingTransport chainOxidative phosphorylationEquivalents NADHMature cellsSynthasePhysiologic roleMouse heartsATPRecent studiesPhosphorylationSubunitsFADH2Physiological roles of the mitochondrial permeability transition pore
Mnatsakanyan N, Beutner G, Porter GA, Alavian KN, Jonas EA. Physiological roles of the mitochondrial permeability transition pore. Journal Of Bioenergetics And Biomembranes 2016, 49: 13-25. PMID: 26868013, PMCID: PMC4981558, DOI: 10.1007/s10863-016-9652-1.BooksMeSH KeywordsAdenosine TriphosphatasesAdenosine TriphosphateAnimalsCell DeathHumansIon ChannelsMitochondrial Membrane Transport ProteinsMitochondrial MembranesMitochondrial Permeability Transition PoreOxidative PhosphorylationConceptsMitochondrial permeability transition poreATP synthaseOxidative phosphorylationATP productionMulti-protein enzymeF1Fo-ATP synthaseMembrane potential maintenanceInner mitochondrial membraneSynaptic vesicle recyclingMembrane-inserted portionPermeability transition poreMitochondrial permeability transitionRegulatory complexC subunitCellular functionsVesicle recyclingMitochondrial membraneCardiac developmentRegulatory mechanismsMitochondrial productionTransition porePermeability transitionPhysiological roleCell deathEnzymatic portion
2015
Cell death disguised: The mitochondrial permeability transition pore as the c-subunit of the F1FO ATP synthase
Jonas EA, Porter GA, Beutner G, Mnatsakanyan N, Alavian KN. Cell death disguised: The mitochondrial permeability transition pore as the c-subunit of the F1FO ATP synthase. Pharmacological Research 2015, 99: 382-392. PMID: 25956324, PMCID: PMC4567435, DOI: 10.1016/j.phrs.2015.04.013.BooksMeSH KeywordsAdenosine TriphosphateAnimalsCell DeathMitochondriaMitochondrial Membrane Transport ProteinsMitochondrial MembranesMitochondrial Permeability Transition PoreMitochondrial Proton-Translocating ATPasesConceptsMitochondrial permeability transition poreATP synthaseC subunitCell deathF1Fo-ATP synthaseInner mitochondrial membranePermeability transition poreMitochondrial permeability transitionOuter membraneMitochondrial membraneRegulatory mechanismsOxidative phosphorylationATP productionTransition poreMitochondrial functionPermeability transitionMolecular componentsOsmotic dysregulationLarge conductancePathological roleRecent findingsPersistent openingSynthaseIon transportMembrane
2014
The Mitochondrial Complex V–Associated Large-Conductance Inner Membrane Current Is Regulated by Cyclosporine and Dexpramipexole
Alavian KN, Dworetzky SI, Bonanni L, Zhang P, Sacchetti S, Li H, Signore AP, Smith PJ, Gribkoff VK, Jonas EA. The Mitochondrial Complex V–Associated Large-Conductance Inner Membrane Current Is Regulated by Cyclosporine and Dexpramipexole. Molecular Pharmacology 2014, 87: 1-8. PMID: 25332381, PMCID: PMC4279080, DOI: 10.1124/mol.114.095661.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateBenzothiazolesBrainCyclosporineHumansMitochondrial Membrane Transport ProteinsMitochondrial MembranesMitochondrial Permeability Transition PorePramipexoleProton-Translocating ATPasesConceptsF1Fo-ATP synthaseInner mitochondrial membraneATP synthaseMitochondrial permeability transition poreSubmitochondrial vesiclesOligomycin sensitivity-conferring protein subunitMitochondrial membraneMitochondrial F1Fo-ATP synthaseMitochondrial matrix calciumFunctional conformational changesCellular energy productionHydrolysis of ATPPermeability transition poreC subunitIon conductanceATP/ADPProtein subunitsEnzyme complexOxidative phosphorylationConformational changesTransition poreComplex VLeak conductanceMatrix calciumEnergy productionAn uncoupling channel within the c-subunit ring of the F1FO ATP synthase is the mitochondrial permeability transition pore
Alavian KN, Beutner G, Lazrove E, Sacchetti S, Park HA, Licznerski P, Li H, Nabili P, Hockensmith K, Graham M, Porter GA, Jonas EA. An uncoupling channel within the c-subunit ring of the F1FO ATP synthase is the mitochondrial permeability transition pore. Proceedings Of The National Academy Of Sciences Of The United States Of America 2014, 111: 10580-10585. PMID: 24979777, PMCID: PMC4115574, DOI: 10.1073/pnas.1401591111.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCalciumCell DeathHEK293 CellsHumansIon Channel GatingIon ChannelsLiposomesMitochondriaMitochondrial Membrane Transport ProteinsMitochondrial MembranesMitochondrial Permeability Transition PoreMutationProtein ConformationProtein SubunitsProton-Translocating ATPasesRatsReactive Oxygen SpeciesConceptsMitochondrial PT poreF1Fo-ATP synthaseATP synthasePermeability transitionCell deathCellular metabolic efficiencyInner mitochondrial membrane permeabilityOxygen species-induced cell deathC subunit ringATP synthase F1Mitochondrial membrane permeabilityMitochondrial permeability transitionC subunitPT poreTight regulationATP productionMolecular identitySingle-channel conductanceChannel closureLeak channelsMPTP openingMetabolic efficiencyMembrane permeabilityHealthy cellsOsmotic shifts
2005
The Role of the Mitochondrial Apoptosis Induced Channel MAC in Cytochrome c Release
Martinez-Caballero S, Dejean LM, Jonas EA, Kinnally KW. The Role of the Mitochondrial Apoptosis Induced Channel MAC in Cytochrome c Release. Journal Of Bioenergetics And Biomembranes 2005, 37: 155-164. PMID: 16167172, DOI: 10.1007/s10863-005-6570-z.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisCytochromes cHumansIon ChannelsMiceMitochondriaMitochondrial Membrane Transport ProteinsMitochondrial MembranesMitochondrial Permeability Transition PoreProto-Oncogene Proteins c-bcl-2ConceptsMitochondrial apoptosis-induced channelBcl-2 family proteinsMitochondrial outer membraneCytochrome cOuter membrane integrityCytochrome c releaseHigh-conductance channelPermeability transition poreIntermembrane spaceFamily proteinsCommitment stepOuter membraneC releaseProapoptotic factorsTransition poreSingle-channel behaviorMAC formationMembrane integrityCrucial eventEarly apoptosisApoptosisMolecular compositionRelease channelMAC activityMitochondria