2019
TCF4 induces enzalutamide resistance via neuroendocrine differentiation in prostate cancer
Lee G, Rosenfeld J, Kim W, Kwon Y, Palapattu G, Mehra R, Kim W, Kim I. TCF4 induces enzalutamide resistance via neuroendocrine differentiation in prostate cancer. PLOS ONE 2019, 14: e0213488. PMID: 31536510, PMCID: PMC6752758, DOI: 10.1371/journal.pone.0213488.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBenzamidesBeta CateninCell Line, TumorDisease Models, AnimalDrug Resistance, NeoplasmHumansMaleMiceMice, KnockoutNeuroendocrine CellsNitrilesPhenylthiohydantoinProstatic NeoplasmsProtein BindingProtein TransportTranscription Factor 7-Like 2 ProteinXenograft Model Antitumor AssaysConceptsCastration-resistant prostate cancerEnzalutamide resistanceTranscription factor 4Neuroendocrine differentiationProstate cancerSecond-generation androgen receptor antagonistHuman prostate cancer cell linesLNCaP human prostate cancer cell lineResistant prostate cancerProstate cancer cell linesStandard of careAndrogen receptor antagonistMouse xenograft modelExpression levelsCell linesTCF4 overexpressionCancer cell linesMedian timeClinical benefitReceptor antagonistNeuroendocrine markersMetastatic CaPTreatment resistanceXenograft modelParental cell line
2018
The Anticancer Effects of Garlic Extracts on Bladder Cancer Compared to Cisplatin: A Common Mechanism of Action via Centromere Protein M
Kim W, Seo S, Byun Y, Kang H, Kim Y, Lee S, Jeong P, Song H, Choe S, Kim D, Kim S, Ha Y, Moon S, Lee G, Kim I, Yun S, Kim W. The Anticancer Effects of Garlic Extracts on Bladder Cancer Compared to Cisplatin: A Common Mechanism of Action via Centromere Protein M. The American Journal Of Chinese Medicine 2018, 46: 689-705. PMID: 29595070, DOI: 10.1142/s0192415x18500362.Peer-Reviewed Original ResearchConceptsCentromere protein MBladder cancerBC patientsGarlic extractBetter progression-free survivalNude mouse xenograft modelProgression-free survivalCisplatin-treated miceBALB/cTissue microarray analysisNegative control miceMouse xenograft modelBC cell linesEffect of garlicMicroarray analysisCisplatin groupControl miceTumor weightControl tumorsTumor volumeNormal controlsXenograft modelSide effectsBody weightTumor tissue
2017
Garlic extract in bladder cancer prevention: Evidence from T24 bladder cancer cell xenograft model, tissue microarray, and gene network analysis
Kim W, Seo S, Byun Y, Kang H, Kim Y, Lee S, Jeong P, Seo Y, Choe S, Kim D, Kim S, Moon S, Choi Y, Lee G, Kim I, Yun S, Kim W. Garlic extract in bladder cancer prevention: Evidence from T24 bladder cancer cell xenograft model, tissue microarray, and gene network analysis. International Journal Of Oncology 2017, 51: 204-212. PMID: 28498422, DOI: 10.3892/ijo.2017.3993.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisBiomarkers, TumorCell ProliferationGarlicGene Expression Regulation, NeoplasticGene Regulatory NetworksHumansMaleMiceMice, Inbred BALB CMice, NudePlant ExtractsSignal TransductionTissue Array AnalysisTumor Cells, CulturedUrinary Bladder NeoplasmsXenograft Model Antitumor AssaysConceptsCancer preventionBladder cancerGarlic extractXenograft modelNude mouse xenograft modelAcceptable safety profileBladder cancer preventionCancer prevention activitiesCell xenograft modelBALB/cTissue microarray analysisMouse xenograft modelMicroarray analysisTumor weightBC patientsSafety profileTumor volumeTissue microarrayControl groupGene network analysisControl dietPrevention activitiesPreventionExtract intakePotential mechanisms
2016
BMI-1 Targeting Interferes with Patient-Derived Tumor-Initiating Cell Survival and Tumor Growth in Prostate Cancer
Bansal N, Bartucci M, Yusuff S, Davis S, Flaherty K, Huselid E, Patrizii M, Jones D, Cao L, Sydorenko N, Moon Y, Zhong H, Medina D, Kerrigan J, Stein M, Kim I, Davis T, DiPaola R, Bertino J, Sabaawy H. BMI-1 Targeting Interferes with Patient-Derived Tumor-Initiating Cell Survival and Tumor Growth in Prostate Cancer. Clinical Cancer Research 2016, 22: 6176-6191. PMID: 27307599, PMCID: PMC5159329, DOI: 10.1158/1078-0432.ccr-15-3107.Peer-Reviewed Original ResearchConceptsTumor-initiating cellsProstate tumor-initiating cellsBmi-1Androgen receptor-directed therapyIntrinsic therapy resistanceReceptor-directed therapyProstate cancer managementProstate cancer treatmentMore effective therapiesBmi-1 expressionProstate cancer cellsStem cell-like traitsSelf-renewing tumor-initiating cellsCell-like traitsPatient-derived cellsEffective therapyTumor relapseCancer managementXenograft modelTherapy resistancePharmacologic inhibitionBmi-1 functionTherapyNormal tissuesCancer treatment
2013
Therapeutic Role of Bmi-1 Inhibitors in Eliminating Prostate Tumor Stem Cells
Kim I, Bertino J, Sabaawy H. Therapeutic Role of Bmi-1 Inhibitors in Eliminating Prostate Tumor Stem Cells. 2013 DOI: 10.21236/ada598365.Peer-Reviewed Original ResearchProstate tumor-initiating cellsTumor-initiating cellsBmi-1Stem cellsTreatment of zebrafishCancer cell senescenceMouse xenograftsZebrafish xenograft modelCell cycle arrestG1 cell cycle arrestCellular senescenceTranslational inhibitorBmi-1 expressionTumor stem cellsCell senescenceCycle arrestCurrent therapiesTherapeutic roleProstate cancerInvasion abilityTherapeutic strategiesXenograft modelCD44hi cellsTumor growthMetastatic potential