2013
PINK1 protects against cell death induced by mitochondrial depolarization, by phosphorylating Bcl-xL and impairing its pro-apoptotic cleavage
Arena G, Gelmetti V, Torosantucci L, Vignone D, Lamorte G, De Rosa P, Cilia E, Jonas EA, Valente EM. PINK1 protects against cell death induced by mitochondrial depolarization, by phosphorylating Bcl-xL and impairing its pro-apoptotic cleavage. Cell Death & Differentiation 2013, 20: 920-930. PMID: 23519076, PMCID: PMC3679455, DOI: 10.1038/cdd.2013.19.Peer-Reviewed Original ResearchConceptsBcl-xLMitochondrial depolarizationCell deathPro-autophagic protein Beclin-1Autosomal recessive Parkinson's diseaseBeclin-1Recessive Parkinson's diseaseAnti-apoptotic proteinsXL interactionMitochondrial kinaseProtein Beclin 1Mitochondrial traffickingMitochondrial homeostasisMitophagy pathwayBcl-xL.PINK1Functional linkCell survivalPathogenesis of PDNovel mechanismPINK1 genePathwayCleavageMitophagyParkinson's disease
2005
Oligomeric 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
2003
BAK Alters Neuronal Excitability and Can Switch from Anti- to Pro-Death Function during Postnatal Development
Fannjiang Y, Kim CH, Huganir RL, Zou S, Lindsten T, Thompson CB, Mito T, Traystman RJ, Larsen T, Griffin DE, Mandir AS, Dawson TM, Dike S, Sappington AL, Kerr DA, Jonas EA, Kaczmarek LK, Hardwick JM. BAK Alters Neuronal Excitability and Can Switch from Anti- to Pro-Death Function during Postnatal Development. Developmental Cell 2003, 4: 575-585. PMID: 12689595, DOI: 10.1016/s1534-5807(03)00091-1.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsAnimalsAnimals, NewbornApoptosisBcl-2 Homologous Antagonist-Killer ProteinCentral Nervous SystemCentral Nervous System DiseasesCentral Nervous System Viral DiseasesDisease Models, AnimalEpilepsyExcitatory Postsynaptic PotentialsGenetic VectorsHippocampusKainic AcidMaleMembrane ProteinsMiceMice, KnockoutNeurodegenerative DiseasesNeuronsNeurotoxinsProtein Structure, TertiarySindbis VirusStrokeSynaptic TransmissionConceptsNeuronal excitabilityVirus infectionPostnatal developmentAlters neuronal excitabilityKainate-induced seizuresSpinal cord neuronsIschemia/strokeSindbis virus infectionNeuronal injuryCord neuronsNeuronal deathProtective effectSynaptic activityMouse modelParkinson's diseaseNeuron subtypesNeurotransmitter releasePro-death functionMiceNeuronsSpecific death stimuliDeathSeizuresPossible roleExcitability