2017
Examination of Mitochondrial Ion Conductance by Patch Clamp in Intact Neurons and Mitochondrial Membrane Preparations
Jonas E, Mnatsakanyan N. Examination of Mitochondrial Ion Conductance by Patch Clamp in Intact Neurons and Mitochondrial Membrane Preparations. Neuromethods 2017, 123: 211-238. DOI: 10.1007/978-1-4939-6890-9_11.Peer-Reviewed Original ResearchMitochondrial calcium uniporterMitochondrial permeability transition poreInner membraneCell deathOuter membraneIon channelsBcl-2 family proteinsNumerous cellular processesMitochondrial ion channelsComplex of proteinsChannel activityTrafficking of metabolitesPro-death stimuliMitochondrial membrane preparationsPermeability transition poreIon channel activityMembrane compartmentalizationIon channel complexDeath channelATP synthaseCellular processesFamily proteinsCalcium uniporterMolecular participantsATP production
2015
ABT‐737 Inhibits Full Length And Cleaved Pro‐Apoptotic Bcl‐xL, Resulting in Differential Effects on Death And Survival
Park H, Licznerski P, Niu Y, Alavian K, Jonas E. ABT‐737 Inhibits Full Length And Cleaved Pro‐Apoptotic Bcl‐xL, Resulting in Differential Effects on Death And Survival. The FASEB Journal 2015, 29 DOI: 10.1096/fasebj.29.1_supplement.777.4.Peer-Reviewed Original ResearchFull-length Bcl-xLBcl-xLABT-737Mitochondrial potentialATP productionΔN-BclAnti-apoptotic Bcl-2 family proteinsBcl-2 family proteinsCell death stimuliMitochondrial membrane permeabilityATP synthase activityMitochondrial permeability transition porePro-apoptotic BclPro-apoptotic formBcl-xL inhibitorsPermeability transition poreDeath stimuliFamily proteinsBcl-xL.Isolated mitochondriaPharmacological inhibitorsTransition poreCell deathFull lengthSynthase activity
2013
F1FO ATPase vesicle preparation and technique for performing patch clamp recordings of submitochondrial vesicle membranes.
Sacchetti S, Alavian KN, Lazrove E, Jonas EA. F1FO ATPase vesicle preparation and technique for performing patch clamp recordings of submitochondrial vesicle membranes. Journal Of Visualized Experiments 2013, e4394. PMID: 23685483, PMCID: PMC3676267, DOI: 10.3791/4394.Peer-Reviewed Original ResearchConceptsF1Fo-ATP synthaseATP synthaseF1Fo-ATPaseSubmitochondrial vesiclesNecrotic cell deathPro-apoptotic factorsCell deathOuter membraneBcl-2 family proteinsMitochondrial outer membraneImportant cellular functionsOuter membrane ruptureImportant mitochondrial functionsRole of mitochondriaMediation of signalsMitochondrial permeability transition poreProduction of ATPApoptotic cell deathPermeability transition poreInner membrane poreCellular functionsFamily proteinsInner membraneOxidative phosphorylationBeta subunit
2012
Multipolar functions of BCL-2 proteins link energetics to apoptosis
Hardwick JM, Chen YB, Jonas EA. Multipolar functions of BCL-2 proteins link energetics to apoptosis. Trends In Cell Biology 2012, 22: 318-328. PMID: 22560661, PMCID: PMC3499971, DOI: 10.1016/j.tcb.2012.03.005.Peer-Reviewed Original ResearchConceptsBcl-2 proteinClassical apoptotic cell deathBcl-2 family proteinsSub-mitochondrial localizationApoptotic cell deathFamily proteinsClassical apoptosisBiochemical activityApoptosis regulatorCritical crosstalkCell survivalCell deathProteinApoptosisProfound effectCellsMultipolar functionsRegulatorCrosstalkLocalizationCurrent assumptionsDeathMouse Transient Global Ischemia Two-Vessel Occlusion Model.
Pontarelli F, Ofengeim D, Zukin RS, Jonas EA. Mouse Transient Global Ischemia Two-Vessel Occlusion Model. Bio-protocol 2012, 2 PMID: 27446974, PMCID: PMC4950949, DOI: 10.21769/bioprotoc.262.Peer-Reviewed Original ResearchMitochondrial channel activityTransient global ischemiaTwo-vessel occlusion modelBcl-2 family proteinsGlobal ischemiaOcclusion modelChannel activityCaspase-resistant formFamily proteinsFour-vessel occlusion modelCaspase activationHuman cardiac arrestNeocortical layers IIHippocampal CA1 neuronsHigh morbidity rateTransgenic animalsBcl-xLRegional strokeHilar neuronsAspiny neuronsFocal ischemiaMorbidity ratePyramidal neuronsCA1 neuronsCardiac arrest
2011
Bcl-xL regulates mitochondrial energetics by stabilizing the inner membrane potential
Chen YB, Aon MA, Hsu YT, Soane L, Teng X, McCaffery JM, Cheng WC, Qi B, Li H, Alavian KN, Dayhoff-Brannigan M, Zou S, Pineda FJ, O'Rourke B, Ko YH, Pedersen PL, Kaczmarek LK, Jonas EA, Hardwick JM. Bcl-xL regulates mitochondrial energetics by stabilizing the inner membrane potential. Journal Of Cell Biology 2011, 195: 263-276. PMID: 21987637, PMCID: PMC3198165, DOI: 10.1083/jcb.201108059.Peer-Reviewed Original ResearchConceptsMitochondrial membrane potentialMitochondrial membraneMitochondrial ATP synthase β-subunitATP synthase β subunitBcl-2 family proteinsOuter membrane permeabilizationInner mitochondrial membrane potentialMembrane potentialMitochondrial energetic capacityOuter mitochondrial membraneSynthase β subunitInner mitochondrial membraneInner membrane potentialATP synthaseFamily proteinsBiochemical approachesGenetic evidenceEndogenous BclMembrane permeabilizationCellular resourcesΒ-subunitBcl-xLMitochondrial energeticsEnergetic capacityMitochondrial cristae
2009
Molecular participants in mitochondrial cell death channel formation during neuronal ischemia
Jonas EA. Molecular participants in mitochondrial cell death channel formation during neuronal ischemia. Experimental Neurology 2009, 218: 203-212. PMID: 19341732, PMCID: PMC2710418, DOI: 10.1016/j.expneurol.2009.03.025.Peer-Reviewed Original ResearchConceptsBcl-2 family proteinsCell deathFamily proteinsInner membraneOuter membraneIon channelsMolecular participantsNumerous cellular processesMitochondrial ion channelsComplex of proteinsSpecialized physiological functionsMembrane compartmentalizationIon channel complexCellular processesPhysiological functionsIon channel conductanceCytosolic metabolitesChannel complexProteinMembrane potentialChannel formationMembraneChannel conductanceSynaptic transmissionVDACMitochondrial Ion Channels in Ischemic Brain
Jonas E. Mitochondrial Ion Channels in Ischemic Brain. Contemporary Clinical Neuroscience 2009, 117-150. DOI: 10.1007/978-1-60327-579-8_7.Peer-Reviewed Original ResearchIon channel activityBcl-2 family proteinsCell deathMitochondrial intermembrane spaceCytochrome cMitochondrial ion channelsChannel activityEnergy-dependent eventsIntermembrane spaceIon channel componentsCellular processesFamily proteinsInner membraneOuter membraneOxidative phosphorylationCell lifeProapoptotic factorsProapoptotic moleculesMitochondriaIon channelsCytosolic levelsCurrent knowledgeNormal brain functionDependent eventsEnergy deprivation
2006
Mitochondrial factors with dual roles in death and survival
Cheng WC, Berman SB, Ivanovska I, Jonas EA, Lee SJ, Chen Y, Kaczmarek LK, Pineda F, Hardwick JM. Mitochondrial factors with dual roles in death and survival. Oncogene 2006, 25: 4697-4705. PMID: 16892083, DOI: 10.1038/sj.onc.1209596.Peer-Reviewed Original ResearchConceptsBcl-2 family proteinsCell deathCell death regulatorsPro-death Bcl-2 family proteinNormal cellular functionMitochondrial fission proteinDeath regulatorsDeath stimuliCellular functionsFamily proteinsMitochondrial factorsFission proteinsCell survivalBiochemical mechanismsCaspasesDual roleProteinHealthy cellsCellsMammalsMitochondriaRegulatorSurvivalDeathStretch
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 ResearchConceptsMitochondrial 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 activityMitochondriaOligomeric Bax Is a Component of the Putative Cytochrome c Release Channel MAC, Mitochondrial Apoptosis-induced Channel
Dejean LM, Martinez-Caballero S, Guo L, Hughes C, Teijido O, Ducret T, Ichas F, Korsmeyer SJ, Antonsson B, Jonas EA, Kinnally KW. Oligomeric Bax Is a Component of the Putative Cytochrome c Release Channel MAC, Mitochondrial Apoptosis-induced Channel. Molecular Biology Of The Cell 2005, 16: 2424-2432. PMID: 15772159, PMCID: PMC1087246, DOI: 10.1091/mbc.e04-12-1111.Peer-Reviewed Original ResearchConceptsMitochondrial apoptosis-induced channelOligomeric BaxBcl-2 family proteinsHeLa cellsBcl-2-overexpressing cellsCytochrome cChannel activityMAC activityIntrinsic apoptotic pathwayApoptotic cellsFamily proteinsIntrinsic apoptosisApoptotic pathwaySingle-channel behaviorMitochondriaBaxBax antibodiesMean conductanceBakUntreated cellsRelease channelProteinApoptosisCellsTranslocation
2004
Exposure to Hypoxia Rapidly Induces Mitochondrial Channel Activity within a Living Synapse*
Jonas EA, Hickman JA, Hardwick JM, Kaczmarek LK. Exposure to Hypoxia Rapidly Induces Mitochondrial Channel Activity within a Living Synapse*. Journal Of Biological Chemistry 2004, 280: 4491-4497. PMID: 15561723, DOI: 10.1074/jbc.m410661200.Peer-Reviewed Original ResearchConceptsMitochondrial channel activityMitochondrial membraneChannel activityBcl-xLBcl-2 family proteinsPro-apoptotic fragmentsOuter mitochondrial membraneTrigger cell deathZ-VAD-FMKBenzyloxycarbonyl-VADFamily proteinsSynaptic responsesMulticonductance channelLarge conductance channelFluoromethyl ketoneCell deathMinutes of hypoxiaResponses of neuronsNeuronal functionSquid giant synapseSynaptic mitochondriaEarly eventsSynaptic functionHypoxic conditionsNeuronal deathProapoptotic N-truncated BCL-xL protein activates endogenous mitochondrial channels in living synaptic terminals
Jonas EA, Hickman JA, Chachar M, Polster BM, Brandt TA, Fannjiang Y, Ivanovska I, Basañez G, Kinnally KW, Zimmerberg J, Hardwick JM, Kaczmarek LK. Proapoptotic N-truncated BCL-xL protein activates endogenous mitochondrial channels in living synaptic terminals. Proceedings Of The National Academy Of Sciences Of The United States Of America 2004, 101: 13590-13595. PMID: 15342906, PMCID: PMC518799, DOI: 10.1073/pnas.0401372101.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisBcl-X ProteinDecapodiformesElectric ConductivityEndopeptidasesHypoxiaIon ChannelsLiposomesMitochondriaNADPatch-Clamp TechniquesPorinsPresynaptic TerminalsProtein Processing, Post-TranslationalProto-Oncogene Proteins c-bcl-2Sequence DeletionVoltage-Dependent Anion ChannelsConceptsBcl-xLMitochondrial channelsDeath pathwaysMitochondrial membraneBcl-xL.Proapoptotic Bcl-2 family proteinsVoltage-dependent anion channelBcl-2 family proteinsOuter mitochondrial membraneCell death pathwaysHydrophobic C-terminusBcl-xL proteinAntiapoptotic Bcl-xLNeuronal death pathwaysDeath stimuliBH3 domainFamily proteinsSquid presynaptic terminalsMammalian cellsC-terminusAnion channelMitochondriaChannel activityOpposite effectHealthy neurons
2003
Modulation of Synaptic Transmission by the BCL-2 Family Protein BCL-xL
Jonas EA, Hoit D, Hickman JA, Brandt TA, Polster BM, Fannjiang Y, McCarthy E, Montanez MK, Hardwick JM, Kaczmarek LK. Modulation of Synaptic Transmission by the BCL-2 Family Protein BCL-xL. Journal Of Neuroscience 2003, 23: 8423-8431. PMID: 12968005, PMCID: PMC6740692, DOI: 10.1523/jneurosci.23-23-08423.2003.Peer-Reviewed Original ResearchConceptsBcl-2 family proteinsProtein Bcl-xLBcl-xLFamily proteinsMitochondrial membranePro-apoptotic cleavage productRecombinant Bcl-xLBcl-xL proteinMitochondrial calcium uptakePresynaptic terminalsInfluences synaptic transmissionCell deathGiant presynaptic terminalSynaptic transmissionChannel activityProteinSquid stellate ganglionMitochondriaCleavage productsSynaptic stabilityAdult brainPostsynaptic responsesCalcium uptakeMembranePatch pipette