2022
Alpha-tocotrienol enhances arborization of primary hippocampal neurons via upregulation of Bcl-xL
Park HA, Crowe-White KM, Ciesla L, Scott M, Bannerman S, Davis AU, Adhikari B, Burnett G, Broman K, Ferdous KA, Lackey KH, Licznerski P, Jonas EA. Alpha-tocotrienol enhances arborization of primary hippocampal neurons via upregulation of Bcl-xL. Nutrition Research 2022, 101: 31-42. PMID: 35366596, PMCID: PMC9081260, DOI: 10.1016/j.nutres.2022.02.007.Peer-Reviewed Original ResearchConceptsPrimary hippocampal neuronsControl neuronsHippocampal neuronsAlpha-tocotrienolBcl-xLVitamin E familyCerebral ischemiaNeuronal viabilityMature neuronsB cellsNeurite complexityNeuronal functionMitochondrial energy productionBrain developmentCentral mechanismsNeuronsBeneficial effectsOxidative stressBcl-xL upregulationProtein levelsNeurite branchingTreatmentE familyATP levelsNeurite outgrowth
2020
ATP Synthase c-Subunit Leak Causes Aberrant Cellular Metabolism in Fragile X Syndrome
Licznerski P, Park HA, Rolyan H, Chen R, Mnatsakanyan N, Miranda P, Graham M, Wu J, Cruz-Reyes N, Mehta N, Sohail S, Salcedo J, Song E, Effman C, Effman S, Brandao L, Xu GN, Braker A, Gribkoff VK, Levy RJ, Jonas EA. ATP Synthase c-Subunit Leak Causes Aberrant Cellular Metabolism in Fragile X Syndrome. Cell 2020, 182: 1170-1185.e9. PMID: 32795412, PMCID: PMC7484101, DOI: 10.1016/j.cell.2020.07.008.Peer-Reviewed Original ResearchConceptsFragile X syndromeC subunitAberrant synaptic developmentHuman fragile X syndromeATP synthase enzymeMental retardation proteinX syndromeATP production efficiencyMRNA translation rateAberrant cellular metabolismATP synthaseMRNA translationTranslation rateCellular metabolismSynaptic growthSynthase enzymeMouse neuronsSynapse maturationSynaptic developmentPharmacological inhibitionLeak channelsSynaptic maturationMembrane leakMaturationMetabolismATP synthase c-subunit ring as the channel of mitochondrial permeability transition: Regulator of metabolism in development and degeneration
Mnatsakanyan N, Jonas EA. ATP synthase c-subunit ring as the channel of mitochondrial permeability transition: Regulator of metabolism in development and degeneration. Journal Of Molecular And Cellular Cardiology 2020, 144: 109-118. PMID: 32461058, PMCID: PMC7877492, DOI: 10.1016/j.yjmcc.2020.05.013.Peer-Reviewed Original ResearchConceptsMitochondrial permeability transition poreC subunit ringMitochondrial permeability transitionPermeability transitionRegulator of metabolismPermeability transition poreImportant metabolic regulatorMitochondrial megachannelBiology todayRegulatory mechanismsCentral playerTransition poreMetabolic regulatorMolecular compositionRecent findingsRegulatorDegenerative diseasesPathophysiological roleRecent advancesMegachannelRoleMetabolismMysterious phenomenon
2019
Alpha-Tocotrienol Prevents Oxidative Stress-Mediated Post-Translational Cleavage of Bcl-xL in Primary Hippocampal Neurons
Park HA, Mnatsakanyan N, Broman K, Davis AU, May J, Licznerski P, Crowe-White KM, Lackey KH, Jonas EA. Alpha-Tocotrienol Prevents Oxidative Stress-Mediated Post-Translational Cleavage of Bcl-xL in Primary Hippocampal Neurons. International Journal Of Molecular Sciences 2019, 21: 220. PMID: 31905614, PMCID: PMC6982044, DOI: 10.3390/ijms21010220.Peer-Reviewed Original ResearchConceptsPrimary hippocampal neuronsHippocampal neuronsReactive oxygen speciesMitochondrial dysfunctionBcl-xLMitochondrial membrane potentialMitochondrial functionProduction of ROSExcitotoxic conditionsGlutamate challengeNeuroprotective propertiesMembrane potentialNeuronal deathExcitotoxic stimulationBcl-xL levelsNeuronal survivalIntracellular ATP depletionMitochondrial reactive oxygen speciesB cellsImportant causeDysfunctionNeuronsROS productionATP depletionNeurite outgrowth
2017
Neuronal Death After Hemorrhagic Stroke In Vitro and In Vivo Shares Features of Ferroptosis and Necroptosis
Zille M, Karuppagounder SS, Chen Y, Gough PJ, Bertin J, Finger J, Milner TA, Jonas EA, Ratan RR. Neuronal Death After Hemorrhagic Stroke In Vitro and In Vivo Shares Features of Ferroptosis and Necroptosis. Stroke 2017, 48: 1033-1043. PMID: 28250197, PMCID: PMC5613764, DOI: 10.1161/strokeaha.116.015609.Peer-Reviewed Original ResearchConceptsCell death mechanismsCaspase-dependent apoptosisDeath mechanismsMolecular markersChemical inhibitorsCell death pathwaysNecroptotic cell deathSecondary injuryNecroptotic signalingDeath pathwaysNecrotic phenotypeIntracerebral hemorrhageCell deathMRNA synthesisNecroptosisIntracerebral hemorrhage (ICH) resultsShare featuresFerroptosisHemin-induced toxicityFerroptosis inhibitorsAutophagyCultured neuronsApoptosisHemorrhage resultsNeuronal necrosis
2015
Decreased SGK1 Expression and Function Contributes to Behavioral Deficits Induced by Traumatic Stress
Licznerski P, Duric V, Banasr M, Alavian KN, Ota KT, Kang HJ, Jonas EA, Ursano R, Krystal JH, Duman RS, . Decreased SGK1 Expression and Function Contributes to Behavioral Deficits Induced by Traumatic Stress. PLOS Biology 2015, 13: e1002282. PMID: 26506154, PMCID: PMC4623974, DOI: 10.1371/journal.pbio.1002282.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnimalsBehavior, AnimalCohort StudiesDendritic SpinesDepressive Disorder, MajorEnzyme RepressionFemaleGene Transfer TechniquesHippocampusHumansImmediate-Early ProteinsMaleMiddle AgedNerve Tissue ProteinsNeuronsPrefrontal CortexProtein Serine-Threonine KinasesRats, Sprague-DawleySignal TransductionStress Disorders, Post-TraumaticSynaptic TransmissionTissue BanksConceptsMajor depressive disorderPost-traumatic stress disorderPrefrontal cortexAbnormal dendritic spine morphologyCorticolimbic brain regionsAnhedonic-like behaviorInhibition of SGK1Dendritic spine morphologyKinase 1 expressionAmygdala of individualsTraumatic stressPostmortem prefrontal cortexSynaptic dysfunctionDepressive disorderBehavioral deficitsRodent modelsPTSD subjectsFunctional alterationsBrain regionsSGK1 expressionSpine morphologyStress disorderFunction contributesBehavioral changesDisordersBcl-xL Is Necessary for Neurite Outgrowth in Hippocampal Neurons
Park HA, Licznerski P, Alavian KN, Shanabrough M, Jonas EA. Bcl-xL Is Necessary for Neurite Outgrowth in Hippocampal Neurons. Antioxidants & Redox Signaling 2015, 22: 93-108. PMID: 24787232, PMCID: PMC4281845, DOI: 10.1089/ars.2013.5570.Peer-Reviewed Original ResearchConceptsDeath receptor 6Hippocampal neuronsNeurite outgrowthExacerbation of hypoxiaBcl-xLNeuronal outgrowthNeuronal process outgrowthNeuronal injuryNeurodegenerative stimuliVivo ischemiaHypoxic injuryNeuronal survivalBrain injuryImpairs neurite outgrowthHypoxic controlsSynapse numberAxonal pruningNeurite damageB cellsReceptor 6Synaptic plasticityDR6 expressionSynapse formationEarly increaseNeurons
2013
A Bcl-xL–Drp1 complex regulates synaptic vesicle membrane dynamics during endocytosis
Li H, Alavian KN, Lazrove E, Mehta N, Jones A, Zhang P, Licznerski P, Graham M, Uo T, Guo J, Rahner C, Duman RS, Morrison RS, Jonas EA. A Bcl-xL–Drp1 complex regulates synaptic vesicle membrane dynamics during endocytosis. Nature Cell Biology 2013, 15: 773-785. PMID: 23792689, PMCID: PMC3725990, DOI: 10.1038/ncb2791.Peer-Reviewed Original ResearchConceptsBcl-xLVesicle retrievalProtein-protein interactionsClathrin-coated pitsProtein Bcl-xLCalmodulin-dependent mannerRecruitment of vesiclesNeurotransmitter releaseDepletion of Drp1GTPase Drp1Vesicle endocytosisEndocytic vesiclesMembrane dynamicsPlasma membraneClathrin complexMutagenesis studiesPresynaptic plasticityMitochondrial ATPATP availabilityReserve poolDrp1EndocytosisVesiclesHippocampal neuronsComplexes
2012
N-terminally cleaved Bcl-xL mediates ischemia-induced neuronal death
Ofengeim D, Chen YB, Miyawaki T, Li H, Sacchetti S, Flannery RJ, Alavian KN, Pontarelli F, Roelofs BA, Hickman JA, Hardwick JM, Zukin RS, Jonas EA. N-terminally cleaved Bcl-xL mediates ischemia-induced neuronal death. Nature Neuroscience 2012, 15: 574-580. PMID: 22366758, PMCID: PMC3862259, DOI: 10.1038/nn.3054.Peer-Reviewed Original ResearchEffects of dexpramipexole on brain mitochondrial conductances and cellular bioenergetic efficiency
Alavian KN, Dworetzky SI, Bonanni L, Zhang P, Sacchetti S, Mariggio MA, Onofrj M, Thomas A, Li H, Mangold JE, Signore AP, DeMarco U, Demady DR, Nabili P, Lazrove E, Smith PJ, Gribkoff VK, Jonas EA. Effects of dexpramipexole on brain mitochondrial conductances and cellular bioenergetic efficiency. Brain Research 2012, 1446: 1-11. PMID: 22364637, PMCID: PMC3746080, DOI: 10.1016/j.brainres.2012.01.046.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAdrenergic beta-AntagonistsAnalysis of VarianceAnimalsBiophysical PhenomenaBrainCell SurvivalCells, CulturedCyclosporineDose-Response Relationship, DrugEnergy MetabolismEnzyme InhibitorsHumansMaleMembrane Potential, MitochondrialMiceMitochondriaMitochondrial MembranesNeuroblastomaNeuronsOligopeptidesOxygen ConsumptionPatch-Clamp TechniquesPropranololRatsRats, Sprague-DawleyConceptsAmyotrophic lateral sclerosisParkinson's diseaseRisk of deathChronic neurological disorderLateral sclerosisInefficient energy productionNeurological disordersMitochondrial dysfunctionMembrane currentsDiseaseCellular energy productionDysfunctional mitochondriaCellular stressSclerosisDysfunctionDexpramipexoleInjuryNeurons
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 cristaeBcl-xL regulates metabolic efficiency of neurons through interaction with the mitochondrial F1FO ATP synthase
Alavian KN, Li H, Collis L, Bonanni L, Zeng L, Sacchetti S, Lazrove E, Nabili P, Flaherty B, Graham M, Chen Y, Messerli SM, Mariggio MA, Rahner C, McNay E, Shore GC, Smith PJ, Hardwick JM, Jonas EA. Bcl-xL regulates metabolic efficiency of neurons through interaction with the mitochondrial F1FO ATP synthase. Nature Cell Biology 2011, 13: 1224-1233. PMID: 21926988, PMCID: PMC3186867, DOI: 10.1038/ncb2330.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAnimalsBcl-2 Homologous Antagonist-Killer ProteinBcl-2-Associated X ProteinBcl-X ProteinBiphenyl CompoundsCarbonyl Cyanide p-TrifluoromethoxyphenylhydrazoneCells, CulturedEnergy MetabolismEnzyme InhibitorsHippocampusHydrolysisMembrane Potential, MitochondrialMitochondriaMitochondrial MembranesMitochondrial Proton-Translocating ATPasesNeuronsNitrophenolsOligomycinsOxygen ConsumptionPatch-Clamp TechniquesPiperazinesProton IonophoresRatsRecombinant Fusion ProteinsRNA InterferenceSulfonamidesSynapsesTime FactorsTransfectionConceptsBcl-xLSynthase complexATP synthaseMitochondrial F1Fo-ATP synthaseAnti-apoptotic BCL2 family proteinsF1Fo-ATP synthaseATP synthase complexF1FO-ATPase activityBcl-xL activityATPase activityBcl-xL proteinBCL2 family proteinsEndogenous Bcl-xLPresence of ATPFamily proteinsATPase complexNormal neuronal functionMembrane leak conductanceSubmitochondrial vesiclesΒ-subunitProtect cellsGenetic inhibitionMitochondrial efficiencyF1FoApoptotic molecules
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 transmissionVDACBcl-xL increases mitochondrial fission, fusion, and biomass in neurons
Berman SB, Chen YB, Qi B, McCaffery JM, Rucker EB, Goebbels S, Nave KA, Arnold BA, Jonas EA, Pineda FJ, Hardwick JM. Bcl-xL increases mitochondrial fission, fusion, and biomass in neurons. Journal Of Cell Biology 2009, 184: 707-719. PMID: 19255249, PMCID: PMC2686401, DOI: 10.1083/jcb.200809060.Peer-Reviewed Original ResearchConceptsMitochondrial fissionMitochondrial morphologyCell deathApoptotic cell deathRate of fissionMitochondrial organellesOrganelle morphologyMitochondrial biomassBcl-xLCell typesFluorescence microscopyHealthy neuronsBclCultured neuronsDependent mechanismNeuronal dysfunctionFissionNeuronal processesBiomassSynaptic activityFusionOrganellesComputational strategyRate of fusionRegulation
2008
Ischemic preconditioning blocks BAD translocation, Bcl-xL cleavage, and large channel activity in mitochondria of postischemic hippocampal neurons
Miyawaki T, Mashiko T, Ofengeim D, Flannery RJ, Noh KM, Fujisawa S, Bonanni L, Bennett MV, Zukin RS, Jonas EA. Ischemic preconditioning blocks BAD translocation, Bcl-xL cleavage, and large channel activity in mitochondria of postischemic hippocampal neurons. Proceedings Of The National Academy Of Sciences Of The United States Of America 2008, 105: 4892-4897. PMID: 18347331, PMCID: PMC2290755, DOI: 10.1073/pnas.0800628105.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisBcl-Associated Death ProteinBcl-X ProteinBrain IschemiaCaspase InhibitorsChromonesHippocampusIon Channel GatingIschemic PreconditioningLarge-Conductance Calcium-Activated Potassium ChannelsMaleMitochondriaMorpholinesNeuronsPhosphoinositide-3 Kinase InhibitorsPhosphorylationProtein TransportProto-Oncogene Proteins c-aktRatsRats, Sprague-DawleySignal TransductionConceptsMitochondrial outer membraneSmac/DIABLOPI3K/AktOuter membraneCytochrome cFeatures of apoptosisSpecific PI3K inhibitor LY294002PI3K inhibitor LY294002K inhibitor LY294002Mitochondrial translocationMitochondrial releaseMitochondrial membraneVulnerable CA1 pyramidal cellsLarge conductance channelBad translocationInhibitor LY294002PI3KNeuronal deathChannel activityVivo 1 hDIABLOMitochondriaAktTranslocationBcl
2007
Bcl-xL Inhibitor ABT-737 Reveals a Dual Role for Bcl-xL in Synaptic Transmission
Hickman JA, Hardwick JM, Kaczmarek LK, Jonas EA. Bcl-xL Inhibitor ABT-737 Reveals a Dual Role for Bcl-xL in Synaptic Transmission. Journal Of Neurophysiology 2007, 99: 1515-1522. PMID: 18160428, PMCID: PMC2836590, DOI: 10.1152/jn.00598.2007.Peer-Reviewed Original ResearchConceptsMitochondrial outer membraneEndogenous Bcl-xLMitochondrial channel activityBcl-xLInhibitor ABT-737ABT-737Outer membraneBcl-xL.Pro-apoptotic cleavage productRecombinant Bcl-xLChannel activityBcl-xL proteinSynaptic functionDual roleGenetic toolsDomain pocketSynaptic transmissionSynaptic activityGiant presynaptic terminalEquivalent modificationEndogenous proteolysisRepetitive synaptic activityBH3Cleavage productsProtein
2006
BCL-xL regulates synaptic plasticity.
Jonas E. BCL-xL regulates synaptic plasticity. Molecular Interventions 2006, 6: 208-22. PMID: 16960143, DOI: 10.1124/mi.6.4.7.Peer-Reviewed Original ResearchConceptsBcl-xLSynaptic vesicle recyclingRole of mitochondriaHigh synaptic activityMembrane ion pumpsMitochondrial localizationCalcium homeostasisVesicle recyclingPresynaptic terminalsPredominant organellesCell deathSynaptic vesiclesSynaptic developmentIon pumpsIntracellular calcium homeostasisRecent discoveryMitochondriaSynaptic transmitter releaseHomeostasisSynaptic plasticitySynaptic sitesSynapseSynaptic processesSynaptic activityOrganelles
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 deathRegulation of Synaptic Transmission by Mitochondrial Ion Channels
Jonas E. Regulation of Synaptic Transmission by Mitochondrial Ion Channels. Journal Of Bioenergetics And Biomembranes 2004, 36: 357-361. PMID: 15377872, DOI: 10.1023/b:jobb.0000041768.11006.90.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBcl-X ProteinCell HypoxiaCell MembraneDecapodiformesElectric ConductivityHomeostasisHumansIon Channel GatingIon ChannelsMembrane PotentialsMitochondriaMitochondrial ProteinsNeuronsOxidative StressPorinsProto-Oncogene Proteins c-bcl-2Synaptic TransmissionVoltage-Dependent Anion ChannelsConceptsMitochondrial outer membraneVoltage-dependent anion channelOuter membraneBcl-xLSynaptic transmissionChannel activityNeuronal presynaptic terminalsMitochondrial ion channelsProteolytic fragmentsBcl-xL proteinRelease of ATPIon channel activityPresynaptic terminalsRapid onsetSynaptic functionNeurotransmitter releaseBcl-xL.Anion channelNeurotransmitter secretionPrevents cleavageHypoxiaIon channelsProtease inhibitorsLarge conductanceMitochondria
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