2023
Ferroptosis in colorectal cancer: a future target?
Yan H, Talty R, Aladelokun O, Bosenberg M, Johnson C. Ferroptosis in colorectal cancer: a future target? British Journal Of Cancer 2023, 128: 1439-1451. PMID: 36703079, PMCID: PMC10070248, DOI: 10.1038/s41416-023-02149-6.Peer-Reviewed Original ResearchConceptsColorectal cancerRegulated cell deathCurrent treatment optionsForms of RCDCancer deathTreatment optionsCRC therapyCancer recurrenceTreatment strategiesRadiation therapyOvert toxicityTherapeutic targetDrug resistanceTherapyCancer cellsFerroptosisPotential roleCancerCell deathFuture targetsDeathRecent studiesBiological pathwaysChemotherapySurgery
2022
Longitudinal single-cell analysis of a patient receiving adoptive cell therapy reveals potential mechanisms of treatment failure
Qu R, Kluger Y, Yang J, Zhao J, Hafler D, Krause D, Bersenev A, Bosenberg M, Hurwitz M, Lucca L, Kluger H. Longitudinal single-cell analysis of a patient receiving adoptive cell therapy reveals potential mechanisms of treatment failure. Molecular Cancer 2022, 21: 219. PMID: 36514045, PMCID: PMC9749221, DOI: 10.1186/s12943-022-01688-5.Peer-Reviewed Original ResearchConceptsAdoptive cell therapySingle-cell analysisDepth single-cell analysisSingle-cell RNAACT productsDisease progressionT-cell receptor sequencingCell therapyFamily genesFeatures of exhaustionMultiple tumor typesCell expansionGenesNew clonotypesTIL preparationsClonal cell expansionCytokine therapyTreatment failureSerial bloodClonesEffector functionsSerial samplesTumor typesCellular therapyTherapyThe Crossroads of Cancer Epigenetics and Immune Checkpoint Therapy.
Micevic G, Bosenberg M, Yan Q. The Crossroads of Cancer Epigenetics and Immune Checkpoint Therapy. Clinical Cancer Research 2022, 29: 1173-1182. PMID: 36449280, PMCID: PMC10073242, DOI: 10.1158/1078-0432.ccr-22-0784.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsImmune checkpoint inhibitorsImmune checkpoint therapyT cell exhaustionCheckpoint therapyAntitumor immune responseT cell populationsCell-intrinsic immunityTypes of cancerViral mimicry responseLow response rateCheckpoint inhibitorsCurrent immunotherapiesPancreatic cancerSustained responsePreclinical modelsTreatment outcomesImmune responseEndogenous antigensResponse rateTumor typesMultiple epigenetic regulatorsCritical mediatorLow immunogenicityTherapyCancer
2016
A comprehensive system of congenic mouse melanoma models for evaluation of immune therapies
Bosenberg M, Meeth K, Damsky W. A comprehensive system of congenic mouse melanoma models for evaluation of immune therapies. The Journal Of Immunology 2016, 196: 144.19-144.19. DOI: 10.4049/jimmunol.196.supp.144.19.Peer-Reviewed Original ResearchImmune therapyMouse modelImmune systemImmune checkpoint inhibitorsSubset of patientsRenal cell carcinomaMouse melanoma modelMouse melanoma cell lineCheckpoint inhibitorsMelanoma cell linesMelanoma patientsCell carcinomaLung cancerCancer immunologyMalignant melanomaProstate cancerTherapeutic approachesMelanoma modelSkin cancerHuman melanomaTherapyTumor microenvironmentCancerFlow cytometryPatients
2010
Genetic alterations in malignant melanoma
Held M, Bosenberg M. Genetic alterations in malignant melanoma. Diagnostic Histopathology 2010, 16: 317-320. DOI: 10.1016/j.mpdhp.2010.03.001.Peer-Reviewed Original Research
2009
BrafV600E cooperates with Pten loss to induce metastatic melanoma
Dankort D, Curley DP, Cartlidge RA, Nelson B, Karnezis AN, Damsky Jr W, You MJ, DePinho RA, McMahon M, Bosenberg M. BrafV600E cooperates with Pten loss to induce metastatic melanoma. Nature Genetics 2009, 41: 544-552. PMID: 19282848, PMCID: PMC2705918, DOI: 10.1038/ng.356.Peer-Reviewed Original Research
2004
Skin Cancer
Bosenberg M. Skin Cancer. 2004 DOI: 10.1002/0471675067.mmc009.Peer-Reviewed Original Research