Featured Publications
SOX2 promotes lineage plasticity and antiandrogen resistance in TP53- and RB1-deficient prostate cancer
Mu P, Zhang Z, Benelli M, Karthaus W, Hoover E, Chen C, Wongvipat J, Ku S, Gao D, Cao Z, Shah N, Adams E, Abida W, Watson P, Prandi D, Huang C, de Stanchina E, Lowe S, Ellis L, Beltran H, Rubin M, Goodrich D, Demichelis F, Sawyers C. SOX2 promotes lineage plasticity and antiandrogen resistance in TP53- and RB1-deficient prostate cancer. Science 2017, 355: 84-88. PMID: 28059768, PMCID: PMC5247742, DOI: 10.1126/science.aah4307.Peer-Reviewed Original ResearchConceptsLineage plasticityRB1 functionHuman prostate cancer modelProstate cancer modelLoss of TP53Basal-like cellsTumor suppressor geneTranscription factor Sox2Antiandrogen therapyProstate cancerInhibiting Sox2 expressionLineage switchAntiandrogen resistanceCancer modelsTumor cellsSuppressor geneSOX2 expressionIncreased expressionTP53TumorCell lineagesCellular plasticityIn vitroPhenotypic shiftCancer
2020
Tumor Microenvironment-Derived NRG1 Promotes Antiandrogen Resistance in Prostate Cancer
Zhang Z, Karthaus W, Lee Y, Gao V, Wu C, Russo J, Liu M, Mota J, Abida W, Linton E, Lee E, Barnes S, Chen H, Mao N, Wongvipat J, Choi D, Chen X, Zhao H, Manova-Todorova K, de Stanchina E, Taplin M, Balk S, Rathkopf D, Gopalan A, Carver B, Mu P, Jiang X, Watson P, Sawyers C. Tumor Microenvironment-Derived NRG1 Promotes Antiandrogen Resistance in Prostate Cancer. Cancer Cell 2020, 38: 279-296.e9. PMID: 32679108, PMCID: PMC7472556, DOI: 10.1016/j.ccell.2020.06.005.Peer-Reviewed Original ResearchMeSH KeywordsAndrogen AntagonistsAnimalsCancer-Associated FibroblastsCell Line, TumorCell ProliferationCells, CulturedDrug Resistance, NeoplasmGene Expression ProfilingGene Expression Regulation, NeoplasticHumansKaplan-Meier EstimateMaleMice, SCIDNeuregulin-1Prostatic NeoplasmsTumor MicroenvironmentXenograft Model Antitumor AssaysConceptsCancer-associated fibroblastsProstate cancerAntiandrogen resistanceNeuregulin-1Second-generation antiandrogen therapyResistance to hormonal therapyCastration-resistant prostate cancerTreat advanced prostate cancerProstate organoid culturesSecond-generation antiandrogensAdvanced prostate cancerActivation of HER3Antiandrogen therapyHormone therapyHormone deprivationPharmacological blockadeTargeted therapyParacrine mechanismsTumor cellsMouse modelProstateClinical testingOrganoid culturesTherapyCancer
2019
The paracrine induction of prostate cancer progression by caveolin-1
Lin C, Yun E, Lo U, Tai Y, Deng S, Hernandez E, Dang A, Chen Y, Saha D, Mu P, Lin H, Li T, Shen T, Lai C, Hsieh J. The paracrine induction of prostate cancer progression by caveolin-1. Cell Death & Disease 2019, 10: 834. PMID: 31685812, PMCID: PMC6828728, DOI: 10.1038/s41419-019-2066-3.Peer-Reviewed Original ResearchConceptsCastration-resistant prostate cancerCancer stem cellsTumor-derived exosomesProstate cancerCav-1Cancer progressionSubpopulation of cancer stem cellsAssociated with stem cell phenotypeCancer immune evasionProstate cancer progressionStem cell capabilitiesStem cell phenotypePromote cancer developmentPresence of Cav-1Heterogeneous cancer cell populationsCancer cell populationsNeuroendocrine differentiationNeuroendocrine transdifferentiationEpithelial-mesenchymal transitionNFkB signaling pathwayTherapeutic resistanceTumor cellsImmune evasionChemotherapeutic resistanceParacrine induction