Featured Publications
ZNF397 Deficiency Triggers TET2-driven Lineage Plasticity and AR-Targeted Therapy Resistance in Prostate Cancer
Xu Y, Yang Y, Wang Z, Sjostrom M, Jiang Y, Tang Y, Cheng S, Deng S, Wang C, Gonzalez J, Johnson N, Li X, Li X, Metang L, Mukherji A, Xu Q, Tirado C, Wainwright G, Yu X, Barnes S, Hofstad M, Chen Y, Zhu H, Hanker A, Raj G, Zhu G, He H, Wang Z, Arteaga C, Liang H, Feng F, Wang Y, Wang T, Mu P. ZNF397 Deficiency Triggers TET2-driven Lineage Plasticity and AR-Targeted Therapy Resistance in Prostate Cancer. Cancer Discovery 2024, 14: 1496-1521. PMID: 38591846, PMCID: PMC11285331, DOI: 10.1158/2159-8290.cd-23-0539.Peer-Reviewed Original ResearchConceptsLineage plasticityTherapy resistanceProstate cancerCancer cellsAndrogen receptorResistance to AR-targeted therapiesLuminal lineageAR-targeted therapiesOvercome therapy resistanceTransition of cancer cellsEpigenetic regulatory machineryBona fide coactivatorTherapy responseAR signalingEpigenetic rewiringDrug resistanceTherapeutic strategiesEpigenetic reprogrammingProstateTherapyCancerPhenotypic plasticityRegulatory machineryAndrogenTranscriptional programsLoss of SYNCRIP unleashes APOBEC-driven mutagenesis, tumor heterogeneity, and AR-targeted therapy resistance in prostate cancer
Li X, Wang Y, Deng S, Zhu G, Wang C, Johnson N, Zhang Z, Tirado C, Xu Y, Metang L, Gonzalez J, Mukherji A, Ye J, Yang Y, Peng W, Tang Y, Hofstad M, Xie Z, Yoon H, Chen L, Liu X, Chen S, Zhu H, Strand D, Liang H, Raj G, He H, Mendell J, Li B, Wang T, Mu P. Loss of SYNCRIP unleashes APOBEC-driven mutagenesis, tumor heterogeneity, and AR-targeted therapy resistance in prostate cancer. Cancer Cell 2023, 41: 1427-1449.e12. PMID: 37478850, PMCID: PMC10530398, DOI: 10.1016/j.ccell.2023.06.010.Peer-Reviewed Original ResearchConceptsProstate cancerTherapy resistanceTumor heterogeneityTumor mutational burdenCell-intrinsic mechanismsPromote tumor heterogeneityMutational burdenTargeted therapyDriver mutationsPCa cellsCancer cellsHuman cancersMutated genesCancerMutational signaturesProstateTumorTherapyFOXA1APOBEC proteinsAPOBEC3BEP300Molecular brakeMutationsSYNCRIP
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
2017
Rb1 and Trp53 cooperate to suppress prostate cancer lineage plasticity, metastasis, and antiandrogen resistance
Ku S, Rosario S, Wang Y, Mu P, Seshadri M, Goodrich Z, Goodrich M, Labbé D, Gomez E, Wang J, Long H, Xu B, Brown M, Loda M, Sawyers C, Ellis L, Goodrich D. Rb1 and Trp53 cooperate to suppress prostate cancer lineage plasticity, metastasis, and antiandrogen resistance. Science 2017, 355: 78-83. PMID: 28059767, PMCID: PMC5367887, DOI: 10.1126/science.aah4199.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAndrogen AntagonistsAnimalsCell Line, TumorCell LineageCell PlasticityDrug Resistance, NeoplasmEnhancer of Zeste Homolog 2 ProteinEpigenesis, GeneticHumansMaleMiceMutationNeoplasm MetastasisNeoplasms, ExperimentalNeuroendocrine TumorsProstatic NeoplasmsPTEN PhosphohydrolaseRetinoblastoma-Like Protein p107SOXB1 Transcription FactorsTumor Suppressor Protein p53ConceptsAntiandrogen therapyLineage plasticityClinical responses to antiandrogen therapyResistance to antiandrogen therapyMouse modelMetastasis of prostatic adenocarcinomaResponse to antiandrogen therapyAndrogen receptor expressionProstate cancer progressionLoss of Trp53Lineage marker expressionVariant histologyProstatic adenocarcinomaRB1 lossProstate cancerReceptor expressionPTEN mutationsAntiandrogen resistanceTherapeutic resistanceMouse tumorsGene expression profilesNeuroendocrine variantsReprogramming factorsProstateHuman tumors