2020
Extracorporeal Photochemotherapy: Mechanistic Insights Driving Recent Advances and Future Directions.
Wei BM, Hanlon D, Khalil D, Han P, Tatsuno K, Sobolev O, Edelson RL. Extracorporeal Photochemotherapy: Mechanistic Insights Driving Recent Advances and Future Directions. The Yale Journal Of Biology And Medicine 2020, 93: 145-159. PMID: 32226344, PMCID: PMC7087063.Peer-Reviewed Original ResearchConceptsDendritic cellsExtracorporeal photopheresisDC maturationProfessional antigen-presenting cellsAntigen-specific immunityAntigen-presenting cellsImmunological capabilitiesAutoimmune disordersCancer immunotherapyLymphoid tissueImmune systemImmunotherapyInfectious diseasesPoor survivabilityTherapeutic endsPoor availabilityMaturationMultiple strategiesPhotopheresisCellsCancerPhotochemotherapyDiseaseImmunityPlatelet P-selectin initiates cross-presentation and dendritic cell differentiation in blood monocytes
Han P, Hanlon D, Arshad N, Lee JS, Tatsuno K, Yurter A, Robinson E, Filler R, Sobolev O, Cote C, Rivera-Molina F, Toomre D, Fahmy T, Edelson R. Platelet P-selectin initiates cross-presentation and dendritic cell differentiation in blood monocytes. Science Advances 2020, 6: eaaz1580. PMID: 32195350, PMCID: PMC7065880, DOI: 10.1126/sciadv.aaz1580.Peer-Reviewed Original ResearchConceptsDendritic cellsDifferentiation of monocytesBlood monocytesTumor-specific T cell immunityCytokine-derived DCsT cell immunityAntigen-specific immunityPlatelet P-selectinDendritic cell differentiationPeripheral blood monocytesCell immunityP-selectin glycoprotein ligand-1P-selectinExogenous cytokinesNuclear factorMonocytesPhysiologic maturationPhysiological mannerCalcium fluxingNuclear localizationLigand 1Cell differentiationImmunityRapid maturationPlatelets
2019
Rapid Production of Physiologic Dendritic Cells (phDC) for Immunotherapy
Hanlon D, Sobolev O, Han P, Ventura A, Vassall A, Kibbi N, Yurter A, Robinson E, Filler R, Tatsuno K, Edelson RL. Rapid Production of Physiologic Dendritic Cells (phDC) for Immunotherapy. Methods In Molecular Biology 2019, 2097: 173-195. PMID: 31776926, DOI: 10.1007/978-1-0716-0203-4_11.Peer-Reviewed Original ResearchConceptsPeripheral blood mononuclear cellsAntigen-presenting cellsDendritic cellsTumor-associated antigensBlood monocytesDC populationsExtracorporeal photochemotherapyCytokine-derived DCsSource of DCDendritic antigen-presenting cellsHuman peripheral blood mononuclear cellsFunctional antigen-presenting cellsVivo T cell stimulationBlood mononuclear cellsMurine bone marrow precursorsApoptotic tumor cellsT cell stimulationBone marrow precursorsCancer immunotherapyDC differentiationMononuclear cellsIL-4Clinical vaccinationMonocyte activationSupraphysiologic concentrationsEx vivo dendritic cell generation—A critical comparison of current approaches
Han P, Hanlon D, Sobolev O, Chaudhury R, Edelson RL. Ex vivo dendritic cell generation—A critical comparison of current approaches. International Review Of Cytology 2019, 349: 251-307. PMID: 31759433, DOI: 10.1016/bs.ircmb.2019.10.003.Peer-Reviewed Original ResearchConceptsDendritic cellsDiscovery of DCsMemory T cell responsesProfessional antigen-presenting cellsAntigen-specific immune responsesDendritic cell generationAntigen-specific immunityT cell responsesAntigen-presenting cellsEx vivo productionMononuclear cell fractionRalph SteinmanDC therapyAutoimmune disordersImmunologic functionDC functionPoor survivalImmunologic roleImmune responsePeripheral tissuesPhysiologic productionAdaptive immunityClinical utilityTherapeutic modulationImmune systemExtracorporeal photochemotherapy induces bona fide immunogenic cell death
Tatsuno K, Yamazaki T, Hanlon D, Han P, Robinson E, Sobolev O, Yurter A, Rivera-Molina F, Arshad N, Edelson RL, Galluzzi L. Extracorporeal photochemotherapy induces bona fide immunogenic cell death. Cell Death & Disease 2019, 10: 578. PMID: 31371700, PMCID: PMC6675789, DOI: 10.1038/s41419-019-1819-3.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAnimalsAntigens, NeoplasmApoptosisCD8-Positive T-LymphocytesCell DifferentiationCell Line, TumorCell SurvivalDendritic CellsHMGB1 ProteinHumansImmunogenic Cell DeathLeukocytesLymphoma, T-Cell, CutaneousMethoxsalenMiceMonocytesPhotopheresisPhotosensitizing AgentsReceptor, Interferon alpha-betaUltraviolet RaysConceptsHigh mobility group box 1Tumor-associated antigensCutaneous T-cell lymphomaWhite blood cellsDendritic cellsImmunostimulatory signalsI interferonBona fide immunogenic cell deathMobility group box 1Such dendritic cellsSyngeneic immunocompetent miceCancer cellsT-cell lymphomaType I IFN receptorGroup box 1Immunogenic cell deathI IFN receptorATP-degrading enzymeSecretion of ATPMelanoma cell viabilityCognate immunityUVA irradiationAnticancer immunityImmunocompetent miceCalreticulin exposureNovel Protocol for Generating Physiologic Immunogenic Dendritic Cells.
Ventura A, Vassall A, Yurter A, Robinson E, Filler R, Hanlon D, Meeth K, Ezaldein H, Girardi M, Sobolev O, Bosenberg MW, Edelson RL. Novel Protocol for Generating Physiologic Immunogenic Dendritic Cells. Journal Of Visualized Experiments 2019 PMID: 31157760, DOI: 10.3791/59370.Peer-Reviewed Original ResearchConceptsCutaneous T-cell lymphomaDendritic cellsCellular vaccinesClinical efficacyAnti-tumor T cell immunityVivo anti-tumor responsesMonocyte-derived dendritic cellsTumor cellsSyngeneic mouse tumor modelsImmunogenic dendritic cellsAnti-cancer immunityT cell immunityAnti-tumor responseHuman dendritic cellsT-cell lymphomaAnti-tumor effectsKey mechanistic driversApoptotic tumor cellsMouse tumor modelsCell immunitySafety profileCancer immunotherapyCell lymphomaMouse modelBlood samples