2022
BRD4 inhibitor suppresses melanoma metastasis via the SPINK6/EGFR-EphA2 pathway
Hu R, Li Y, Guo Y, Li X, Du S, Liao M, Hou H, Sun H, Zhao S, Su J, Chen X, Yin M. BRD4 inhibitor suppresses melanoma metastasis via the SPINK6/EGFR-EphA2 pathway. Pharmacological Research 2022, 187: 106609. PMID: 36516883, DOI: 10.1016/j.phrs.2022.106609.Peer-Reviewed Original Research
2021
BET proteolysis targeted chimera-based therapy of novel models of Richter Transformation-diffuse large B-cell lymphoma
Fiskus W, Mill CP, Perera D, Birdwell C, Deng Q, Yang H, Lara BH, Jain N, Burger J, Ferrajoli A, Davis JA, Saenz DT, Jin W, Coarfa C, Crews CM, Green MR, Khoury JD, Bhalla KN. BET proteolysis targeted chimera-based therapy of novel models of Richter Transformation-diffuse large B-cell lymphoma. Leukemia 2021, 35: 2621-2634. PMID: 33654205, PMCID: PMC8410602, DOI: 10.1038/s41375-021-01181-w.Peer-Reviewed Original ResearchMeSH KeywordsAdenineAnimalsAntineoplastic Combined Chemotherapy ProtocolsApoptosisBiomarkers, TumorBridged Bicyclo Compounds, HeterocyclicCell ProliferationCell Transformation, NeoplasticGene Expression Regulation, NeoplasticHumansLymphoma, Large B-Cell, DiffuseMicePiperidinesProteinsProteolysisSulfonamidesTumor Cells, CulturedXenograft Model Antitumor AssaysConceptsLarge B-cell lymphomaB-cell lymphomaRichter transformationBET protein inhibitorLymphoma burdenImproved survivalCombination therapyC-Myc levelsEffective therapyNovel therapiesCell lymphomaXenograft modelProtein inhibitorTherapyBET inhibitorsProtein expressionCLLGenetic alterationsLymphomaInhibitorsIRF4Single-cell RNA-seqHuman modelCRISPR knockoutCells
2020
Derangements in HUWE1/c-MYC pathway confer sensitivity to the BET bromodomain inhibitor GS-626510 in uterine cervical carcinoma
Bonazzoli E, Bellone S, Zammataro L, Gnutti B, Guglielmi A, Pelligra S, Nagarkatti N, Manara P, Tymon-Rosario J, Zeybek B, Altwerger G, Menderes G, Han C, Ratner E, Silasi DA, Huang GS, Andikyan V, Azodi M, Schwartz PE, Santin AD. Derangements in HUWE1/c-MYC pathway confer sensitivity to the BET bromodomain inhibitor GS-626510 in uterine cervical carcinoma. Gynecologic Oncology 2020, 158: 769-775. PMID: 32600791, PMCID: PMC8253557, DOI: 10.1016/j.ygyno.2020.06.484.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAnimalsCell Line, TumorFemaleHumansImidazolesIn Situ Hybridization, FluorescenceIsoxazolesMiceMiddle AgedProteinsProto-Oncogene Proteins c-mycSignal TransductionTumor Suppressor ProteinsUbiquitin-Protein LigasesUterine Cervical NeoplasmsXenograft Model Antitumor AssaysYoung AdultConceptsC-myc expressionC-Myc pathwayTwice-daily oral dosesC-MycWestern blotChemotherapy-resistant diseaseUterine cervical carcinomaPotential therapeutic targetEffective therapeutic agentDose-response decreaseCC xenograftsCell line growthOral dosesCervical carcinomaPrimary tumorDeletion/mutationClinical studiesTherapeutic targetTherapeutic agentsNormal tissuesBET inhibitorsVivo activityQRT-PCRCell proliferationGene deletion/mutationDysregulation of BRD4 Function Underlies the Functional Abnormalities of MeCP2 Mutant Neurons
Xiang Y, Tanaka Y, Patterson B, Hwang SM, Hysolli E, Cakir B, Kim KY, Wang W, Kang YJ, Clement EM, Zhong M, Lee SH, Cho YS, Patra P, Sullivan GJ, Weissman SM, Park IH. Dysregulation of BRD4 Function Underlies the Functional Abnormalities of MeCP2 Mutant Neurons. Molecular Cell 2020, 79: 84-98.e9. PMID: 32526163, PMCID: PMC7375197, DOI: 10.1016/j.molcel.2020.05.016.Peer-Reviewed Original ResearchConceptsMECP2 mutant neuronsEnhancer-promoter interactionsRett syndromeRTT-like phenotypesChromatin bindingMeCP2 functionMethyl-CpGAbnormal transcriptionRTT etiologyMutant neuronsBET inhibitorsPotential therapeutic opportunitiesMECP2 mutationsProtein 2Human brain organoidsFunctional phenotypeJQ1BRD4Therapeutic opportunitiesBrain organoidsFunction underliesMutationsPhenotypeHuman brain culturesCritical driverPotent BRD4 inhibitor suppresses cancer cell-macrophage interaction
Yin M, Guo Y, Hu R, Cai WL, Li Y, Pei S, Sun H, Peng C, Li J, Ye R, Yang Q, Wang N, Tao Y, Chen X, Yan Q. Potent BRD4 inhibitor suppresses cancer cell-macrophage interaction. Nature Communications 2020, 11: 1833. PMID: 32286255, PMCID: PMC7156724, DOI: 10.1038/s41467-020-15290-0.Peer-Reviewed Original ResearchMeSH KeywordsAdministration, OralAnimalsCell CommunicationCell Cycle ProteinsCell Line, TumorCell ProliferationDisease Models, AnimalDown-RegulationDrug DesignFemaleHumansHypoxia-Inducible Factor 1, alpha SubunitMacrophage Colony-Stimulating FactorMacrophagesMice, Inbred BALB CMice, NudeNeoplasmsPhosphorylationProto-Oncogene Proteins c-mycReceptors, Granulocyte-Macrophage Colony-Stimulating FactorSignal TransductionTranscription FactorsTreatment OutcomeConceptsTumor growthMajor clinical stagesBET inhibitorsProliferation of tumorsExtraterminal domain (BET) family proteinsTumor cell proliferationClinical stageTumor shrinkageSyngeneic modelPotent BRD4 inhibitorsSmall molecule inhibitorsSolid tumorsBRD4 inhibitionTumor cellsOral bioavailabilityCancer treatmentCell proliferationBRD4 inhibitorsMolecule inhibitorsMultiple mechanismsC-MycTumorsInhibitors
2019
Whole exome sequencing (WES) of primary, metastatic and recurrent ovarian cancer reveals c-MYC gains as potential target for BET inhibitors
Zeybek B, Bonazzoli E, Lopez S, Han C, Altwerger G, Menderes G, Bellone S, Bianchi A, Ratner E, Schwartz P, Santin A. Whole exome sequencing (WES) of primary, metastatic and recurrent ovarian cancer reveals c-MYC gains as potential target for BET inhibitors. Gynecologic Oncology 2019, 154: 62-63. DOI: 10.1016/j.ygyno.2019.04.148.Peer-Reviewed Original Research
2018
Mutational landscape of primary, metastatic, and recurrent ovarian cancer reveals c-MYC gains as potential target for BET inhibitors
Li C, Bonazzoli E, Bellone S, Choi J, Dong W, Menderes G, Altwerger G, Han C, Manzano A, Bianchi A, Pettinella F, Manara P, Lopez S, Yadav G, Riccio F, Zammataro L, Zeybek B, Yang-Hartwich Y, Buza N, Hui P, Wong S, Ravaggi A, Bignotti E, Romani C, Todeschini P, Zanotti L, Zizioli V, Odicino F, Pecorelli S, Ardighieri L, Silasi DA, Litkouhi B, Ratner E, Azodi M, Huang GS, Schwartz PE, Lifton RP, Schlessinger J, Santin AD. Mutational landscape of primary, metastatic, and recurrent ovarian cancer reveals c-MYC gains as potential target for BET inhibitors. Proceedings Of The National Academy Of Sciences Of The United States Of America 2018, 116: 619-624. PMID: 30584090, PMCID: PMC6329978, DOI: 10.1073/pnas.1814027116.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntineoplastic AgentsAzepinesBRCA1 ProteinBRCA2 ProteinCell Line, TumorClass I Phosphatidylinositol 3-KinasesFemaleHumansMiceMutationNeoplasm MetastasisNeoplasm Recurrence, LocalOvarian NeoplasmsProteinsProto-Oncogene Proteins c-mycTriazolesTumor Suppressor Protein p53Xenograft Model Antitumor AssaysConceptsOvarian cancerWhole-exome sequencingC-myc amplificationRecurrent tumorsPrimary tumorBET inhibitorsChemotherapy-resistant diseaseRecurrent ovarian cancerLethal gynecologic malignancyBilateral ovarian cancerChemotherapy-resistant tumorsPrimary metastatic tumorsMutational landscapeSomatic mutationsFresh-frozen tumorsGynecologic malignanciesMetastatic tumorsPrimary cell linesC-MYC gainPIK3CA amplificationTranscoelomic metastasisTherapeutic targetPatientsMetastatic abilityTumorsOvercoming Resistance to Dual Innate Immune and MEK Inhibition Downstream of KRAS
Kitajima S, Asahina H, Chen T, Guo S, Quiceno L, Cavanaugh J, Merlino A, Tange S, Terai H, Kim J, Wang X, Zhou S, Xu M, Wang S, Zhu Z, Thai T, Takahashi C, Wang Y, Neve R, Stinson S, Tamayo P, Watanabe H, Kirschmeier P, Wong K, Barbie D. Overcoming Resistance to Dual Innate Immune and MEK Inhibition Downstream of KRAS. Cancer Cell 2018, 34: 439-452.e6. PMID: 30205046, PMCID: PMC6422029, DOI: 10.1016/j.ccell.2018.08.009.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAMP-Activated Protein Kinase KinasesAMP-Activated Protein KinasesAnimalsAntineoplastic Agents, ImmunologicalCarcinoma, Non-Small-Cell LungCell Line, TumorDisease Models, AnimalDrug Resistance, NeoplasmHEK293 CellsHumansImmunity, InnateInsulin-Like Growth Factor ILung NeoplasmsMiceMice, TransgenicMitogen-Activated Protein Kinase KinasesPhosphoproteinsProtein Kinase InhibitorsProtein Serine-Threonine KinasesProto-Oncogene Proteins p21(ras)Transcription FactorsYAP-Signaling ProteinsConceptsGenetically engineered mouse modelsMediators of acquired resistanceDownstream of KRASBET inhibitor JQ1Effective therapeutic strategyTumor shrinkageTargeted therapyIntermittent treatmentYAP1 signalingMouse modelPathway inhibitionBET inhibitionTherapeutic strategiesInhibitor JQ1YAP1 upregulationOncogenic KRASBET inhibitorsOvercome resistancePromoter acetylationIntrinsic resistancePotential translationKRASMEKInnateInhibitionLoss of KDM6A Activates Super-Enhancers to Induce Gender-Specific Squamous-like Pancreatic Cancer and Confers Sensitivity to BET Inhibitors
Andricovich J, Perkail S, Kai Y, Casasanta N, Peng W, Tzatsos A. Loss of KDM6A Activates Super-Enhancers to Induce Gender-Specific Squamous-like Pancreatic Cancer and Confers Sensitivity to BET Inhibitors. Cancer Cell 2018, 33: 512-526.e8. PMID: 29533787, PMCID: PMC5854186, DOI: 10.1016/j.ccell.2018.02.003.Peer-Reviewed Original ResearchConceptsPancreatic cancerCOMPASS-like complexesBET inhibitorsMetastatic pancreatic cancerSensitivity to BET inhibitorsSubtypes of tumorsSpectrum of malignanciesPatient-tailored therapySuper-enhancersActivation of super-enhancersSquamous-likeTumor suppressor functionSquamous differentiationRestrained tumor growthTailored therapyTumor growthTherapeutic nicheKDM6A lossSuppressor functionAberrant activationKDM6ACancerCharacterized mechanismsInhibitorsConcomitant loss
2017
BET inhibitors: a novel epigenetic approach
Doroshow DB, Eder JP, LoRusso PM. BET inhibitors: a novel epigenetic approach. Annals Of Oncology 2017, 28: 1776-1787. PMID: 28838216, DOI: 10.1093/annonc/mdx157.Peer-Reviewed Original ResearchConceptsBET inhibitorsHDAC inhibitorsEpigenetic agentsExtra-terminal motif (BET) proteinsImmune checkpoint inhibitorsEarly clinical trialsNovel epigenetic approachHistone deacetylaseZeste homolog 2BET proteinsMonotherapy activityCheckpoint inhibitorsTargeted agentsPreclinical dataClinical trialsDrug classesDrug combinationsSingle agentSolid tumorsPreclinical researchTumor cellsHomolog 2Lysine-specific demethylase 1Anticancer therapyInhibitors
2016
Synergistic Anti-Tumor Efficacy of BET Inhibitors JQ1 and Otx-015 in Combination with Dasatinib in Preclinical Models of T-Cell Lymphomas
Rizzitano S, Cavanè A, Piazzoni M, Vendramin A, Gimondi S, Biancon G, Malan S, Dodero A, Corradini P, Carniti C. Synergistic Anti-Tumor Efficacy of BET Inhibitors JQ1 and Otx-015 in Combination with Dasatinib in Preclinical Models of T-Cell Lymphomas. Blood 2016, 128: 3967. DOI: 10.1182/blood.v128.22.3967.3967.Peer-Reviewed Original ResearchPeripheral T-cell lymphomaT-cell lymphomaT cell receptorChou-Talalay combination indexDose-dependent mannerCell cycle distributionFlow cytometryCell cycle arrestC-myc expressionPreclinical modelsTK inhibitorsCell linesLeukemia cell linesInhibitor dasatinibC-MycWestern blottingG1 populationGene expression profilingSynergistic anti-tumor effectBET inhibitorsLong-term remissionG0/G1 phase arrestStem cell transplantationSynergistic anti-tumor efficacyMitochondrial depolarizationResponse and resistance to BET bromodomain inhibitors in triple-negative breast cancer
Shu S, Lin CY, He HH, Witwicki RM, Tabassum DP, Roberts JM, Janiszewska M, Jin Huh S, Liang Y, Ryan J, Doherty E, Mohammed H, Guo H, Stover DG, Ekram MB, Peluffo G, Brown J, D’Santos C, Krop I, Dillon D, McKeown M, Ott C, Qi J, Ni M, Rao P, Duarte M, Wu S, Chiang C, Anders L, Young R, Winer E, Letai A, Barry W, Carroll J, Long H, Brown M, Shirley Liu X, Meyer C, Bradner J, Polyak K. Response and resistance to BET bromodomain inhibitors in triple-negative breast cancer. Nature 2016, 529: 413-417. PMID: 26735014, PMCID: PMC4854653, DOI: 10.1038/nature16508.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAzepinesBinding, CompetitiveCasein Kinase IICell Cycle ProteinsCell Line, TumorCell ProliferationChromatinDrug Resistance, NeoplasmEpigenesis, GeneticFemaleGene Expression Regulation, NeoplasticGenome, HumanHumansMediator Complex Subunit 1MiceNuclear ProteinsPhosphorylationPhosphoserineProtein BindingProtein Phosphatase 2Protein Structure, TertiaryProteomicsTranscription FactorsTranscription, GeneticTriazolesTriple Negative Breast NeoplasmsXenograft Model Antitumor Assays
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