2009
Intracellular calcium signals regulate growth of hepatic stellate cells via specific effects on cell cycle progression
Soliman EM, Rodrigues MA, Gomes DA, Sheung N, Yu J, Amaya MJ, Nathanson MH, Dranoff JA. Intracellular calcium signals regulate growth of hepatic stellate cells via specific effects on cell cycle progression. Cell Calcium 2009, 45: 284-292. PMID: 19131107, PMCID: PMC3018528, DOI: 10.1016/j.ceca.2008.11.006.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCalcium SignalingCalcium-Calmodulin-Dependent Protein Kinase Type 2Cdc25 PhosphatasesCell CompartmentationCell CycleCell NucleusCell ProliferationChelating AgentsCytosolEgtazic AcidEnzyme InhibitorsG2 PhaseHepatocytesHumansIntracellular SpaceParvalbuminsPhosphorylationProtein TransportRatsSubcellular FractionsConceptsHepatic stellate cellsLiver fibrosisStellate cellsImmortalized human hepatic stellate cellsHSC growthHuman hepatic stellate cellsRat hepatic stellate cellsPrimary rat hepatic stellate cellsIntracellular calcium signalsCdc25C phosphorylationPharmacological therapyCalmodulin kinase IIImportant mediatorCell cycle progressionHSC proliferationCell proliferationLogical targetCalcium signalsAdenoviral constructDownstream intracellularG2/M checkpointCaMK IIFibrosisBlockadeParvalbumin
2007
Molecular basis for calcium signaling in hepatic stellate cells
Kruglov EA, Correa PR, Arora G, Yu J, Nathanson MH, Dranoff JA. Molecular basis for calcium signaling in hepatic stellate cells. AJP Gastrointestinal And Liver Physiology 2007, 292: g975-g982. PMID: 17204544, DOI: 10.1152/ajpgi.00401.2006.Peer-Reviewed Original ResearchMeSH KeywordsActive Transport, Cell NucleusAdenosine TriphosphateAnimalsCalcium SignalingCalreticulinCell NucleusCell ShapeCell Surface ExtensionsCells, CulturedEndoplasmic ReticulumInositol 1,4,5-Trisphosphate ReceptorsLiverLiver CirrhosisMaleMicroscopy, ConfocalMicroscopy, VideoRatsRats, Sprague-DawleyReceptors, Purinergic P2RNA, MessengerTime FactorsConceptsHepatic stellate cellsCell extensionsLipid-storing cellsSubcellular organizationLiver fibrosisMolecular basisStellate cellsSubcellular signalingTrisphosphate receptorChronic liver failureProgressive liver fibrosisSufficient machineryExtracellular ATPMyofibroblastic transdifferentiationOrgan fibrosisLiver failureP2Y receptorsHealthy liverATPLocal controlCellsCritical stepLocal applicationImportant mediatorFibrosis
2005
The Anti-apoptotic Protein Mcl-1 Inhibits Mitochondrial Ca2+ Signals*
Minagawa N, Kruglov EA, Dranoff JA, Robert ME, Gores GJ, Nathanson MH. The Anti-apoptotic Protein Mcl-1 Inhibits Mitochondrial Ca2+ Signals*. Journal Of Biological Chemistry 2005, 280: 33637-33644. PMID: 16027162, DOI: 10.1074/jbc.m503210200.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAniline CompoundsAntibodies, MonoclonalApoptosisBile Duct NeoplasmsCalcium SignalingCarbocyaninesCell LineCell Line, TumorCell NucleusFluorescent Antibody Technique, IndirectFluorescent DyesHeterocyclic Compounds, 3-RingHumansHydrazinesImmunohistochemistryMicroscopy, ConfocalMitochondriaModels, BiologicalMyeloid Cell Leukemia Sequence 1 ProteinNeoplasm ProteinsProto-Oncogene Proteins c-bcl-2Signal TransductionTissue DistributionXanthenesConceptsAnti-apoptotic proteinsMcl-1Mitochondrial Ca2Mcl-1 expressionApoptotic stimuliEndoplasmic reticulum Ca2Trisphosphate receptorCell growthNovel mechanismApoptosisMechanism of actionProteinExpressionDevelopment of neoplasiaCa2Reticulum Ca2CellsMitochondriaInositolRegulationPathwayMechanismSignalsReceptorsRegeneration