2016
Monensin Induces PC-3 Prostate Cancer Cell Apoptosis via ROS Production and Ca2+ Homeostasis Disruption
KIM S, KIM K, YU S, PARK S, YU H, SEO Y, AHN S. Monensin Induces PC-3 Prostate Cancer Cell Apoptosis via ROS Production and Ca2+ Homeostasis Disruption. Anticancer Research 2016, 36: 5835-5843. PMID: 27793906, DOI: 10.21873/anticanres.11168.Peer-Reviewed Original ResearchConceptsCell cycle arrestApoptosis-related proteinsCell cycleCancer cellsPoly ADP-ribose polymerase (PARP) cleavageADP-ribose polymerase cleavageDisruption of CaProstate cancer cell apoptosisRibose polymerase cleavagePhase cell cycle arrestHuman prostate cancer cellsCell viabilityReactive oxygen species productionCancer cell apoptosisAnticancer effectsOxygen species productionMitochondrial ROS inhibitorProduction of ROSMitochondrial ROSDependent apoptosisProstate cancer cellsProstate cell linesPolymerase cleavageCell growth inhibitionPC-3 cells
2013
Interplay of reactive oxygen species, intracellular Ca2+ and mitochondrial homeostasis in the apoptosis of prostate cancer cells by deoxypodophyllotoxin
Kim K, Cho H, Yu S, Kim S, Yu H, Park Y, Mirkheshti N, Kim S, Song C, Chatterjee B, Ahn S. Interplay of reactive oxygen species, intracellular Ca2+ and mitochondrial homeostasis in the apoptosis of prostate cancer cells by deoxypodophyllotoxin. Journal Of Cellular Biochemistry 2013, 114: 1124-1134. PMID: 23192945, DOI: 10.1002/jcb.24455.Peer-Reviewed Original ResearchMeSH KeywordsApoptosisBcl-2-Associated X ProteinCalciumCaspase 3Cell Line, TumorCell ProliferationCell SurvivalCytochromes cDrug Screening Assays, AntitumorDrugs, Chinese HerbalEgtazic AcidEnzyme ActivationG2 Phase Cell Cycle CheckpointsHomeostasisHumansIntracellular SpaceM Phase Cell Cycle CheckpointsMaleMembrane Potential, MitochondrialMitochondriaModels, BiologicalPodophyllotoxinProstatic NeoplasmsProtein TransportReactive Oxygen SpeciesConceptsReactive oxygen speciesMitochondrial homeostasisProstate cancer cellsCaspase-3-dependent pathwayCytochrome c releasePC-3 cell modelBax protein translocationTurn induced apoptosisCancer cellsMitochondrial membrane potentialOxygen speciesCaspase-3 activationN-acetylcysteineIncrease of ROSProtein translocationProstate cancerHuman prostate cancer cellsGeneration of ROSC releaseAntioxidant N-acetylcysteineNew anti-neoplastic agentsROS accumulationMitochondrial functionRecurrent prostate cancerLimited treatment options