2022
Predictive Markers of Response to Neoadjuvant Durvalumab with Nab-Paclitaxel and Dose-Dense Doxorubicin/Cyclophosphamide in Basal-Like Triple-Negative Breast Cancer.
Blenman KRM, Marczyk M, Karn T, Qing T, Li X, Gunasekharan V, Yaghoobi V, Bai Y, Ibrahim EY, Park T, Silber A, Wolf DM, Reisenbichler E, Denkert C, Sinn BV, Rozenblit M, Foldi J, Rimm DL, Loibl S, Pusztai L. Predictive Markers of Response to Neoadjuvant Durvalumab with Nab-Paclitaxel and Dose-Dense Doxorubicin/Cyclophosphamide in Basal-Like Triple-Negative Breast Cancer. Clinical Cancer Research 2022, 28: 2587-2597. PMID: 35377948, PMCID: PMC9464605, DOI: 10.1158/1078-0432.ccr-21-3215.Peer-Reviewed Original ResearchConceptsBasal-like triple-negative breast cancerPathologic complete responseResidual diseaseNeoadjuvant durvalumabDNA damage repairSomatic mutationsBreast cancerWnt/β-cateninHigh expressionTriple-negative breast cancerBasal-Like TripleDoxorubicin/cyclophosphamideDNA repairTumor mutation burdenRNA sequencingEpithelial-mesenchymal transitionFive-gene signatureB-cell markersCancer driversEnrichment analysisNegative breast cancerDamage repairGene expressionJAK-STATCell cycle
2021
Quantitative assessment of the immune microenvironment in African American Triple Negative Breast Cancer: a case–control study
Yaghoobi V, Moutafi M, Aung TN, Pelekanou V, Yaghoubi S, Blenman K, Ibrahim E, Vathiotis IA, Shafi S, Sharma A, O’Meara T, Fernandez AI, Pusztai L, Rimm DL. Quantitative assessment of the immune microenvironment in African American Triple Negative Breast Cancer: a case–control study. Breast Cancer Research 2021, 23: 113. PMID: 34906209, PMCID: PMC8670126, DOI: 10.1186/s13058-021-01493-w.Peer-Reviewed Original ResearchMeSH KeywordsBiomarkers, TumorBlack or African AmericanCase-Control StudiesHumansTriple Negative Breast NeoplasmsTumor MicroenvironmentConceptsNegative breast cancerT cellsTumor microenvironmentAA patientsImmune cellsAA tumorsBreast cancerPurposeTriple-negative breast cancerAfrican AmericansTriple-negative breast cancerCase-control studySignificant differencesActivated T cellsImmunologic biomarkersPD-L1Lymphocytic infiltrationLymphoid infiltrationImmune microenvironmentControl cohortTNBC tumorsMyeloid markersQuantitative immunofluorescenceMean expression levelPatientsTNBCTargeting Pyruvate Kinase M2 Phosphorylation Reverses Aggressive Cancer Phenotypes
Apostolidi M, Vathiotis IA, Muthusamy V, Gaule P, Gassaway BM, Rimm DL, Rinehart J. Targeting Pyruvate Kinase M2 Phosphorylation Reverses Aggressive Cancer Phenotypes. Cancer Research 2021, 81: 4346-4359. PMID: 34185676, PMCID: PMC8373815, DOI: 10.1158/0008-5472.can-20-4190.Peer-Reviewed Original ResearchMeSH KeywordsActive Transport, Cell NucleusAnimalsBiomarkers, TumorCarrier ProteinsCell Line, TumorCollagenCyclic N-OxidesDrug CombinationsGenome, HumanHumansIndolizinesLamininMCF-7 CellsMembrane ProteinsMiceNeoplasm InvasivenessNeoplasm TransplantationNeoplasmsOxidation-ReductionPhenotypePhosphorylationProtein IsoformsProteoglycansProteomicsPyridazinesPyridinium CompoundsPyrrolesPyruvate KinaseThyroid HormonesTriple Negative Breast NeoplasmsConceptsTriple-negative breast cancerPyruvate kinase M2TEPP-46Breast cancerAggressive breast cancer cell phenotypesCharacteristic nuclear staining patternAggressive breast cancer subtypeAggressive breast cancer phenotypeBreast cancer cell phenotypeCDK inhibitor dinaciclibCombination of dinaciclibLack of biomarkersEffective therapeutic approachBreast cancer phenotypeBreast cancer subtypesCancer phenotypePhosphorylation of PKM2Cyclin-dependent kinase (CDK) pathwayMouse xenograft modelAggressive cancer phenotypeNuclear staining patternLower survival rateImpaired redox balancePrognostic valueCancer cell phenotypePD-L1 Expression Scoring: Noninterchangeable, Noninterpretable, Neither, or Both
Gavrielatou N, Shafi S, Gaule P, Rimm DL. PD-L1 Expression Scoring: Noninterchangeable, Noninterpretable, Neither, or Both. Journal Of The National Cancer Institute 2021, 113: 1613-1614. PMID: 34097056, PMCID: PMC8634453, DOI: 10.1093/jnci/djab109.Peer-Reviewed Original ResearchAn Open Source, Automated Tumor Infiltrating Lymphocyte Algorithm for Prognosis in Triple-Negative Breast Cancer
Bai Y, Cole K, Martinez-Morilla S, Ahmed FS, Zugazagoitia J, Staaf J, Bosch A, Ehinger A, Nimeus E, Hartman J, Acs B, Rimm DL. An Open Source, Automated Tumor Infiltrating Lymphocyte Algorithm for Prognosis in Triple-Negative Breast Cancer. Clinical Cancer Research 2021, 27: clincanres.0325.2021. PMID: 34088723, PMCID: PMC8530841, DOI: 10.1158/1078-0432.ccr-21-0325.Peer-Reviewed Original ResearchAlgorithmsFemaleHumansLymphocytes, Tumor-InfiltratingMiddle AgedPrognosisRetrospective StudiesSurvival RateTriple Negative Breast NeoplasmsA new tool for technical standardization of the Ki67 immunohistochemical assay
Aung TN, Acs B, Warrell J, Bai Y, Gaule P, Martinez-Morilla S, Vathiotis I, Shafi S, Moutafi M, Gerstein M, Freiberg B, Fulton R, Rimm DL. A new tool for technical standardization of the Ki67 immunohistochemical assay. Modern Pathology 2021, 34: 1261-1270. PMID: 33536573, PMCID: PMC8222064, DOI: 10.1038/s41379-021-00745-6.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overBiomarkers, TumorCell Line, TumorFemaleHumansImmunohistochemistryKi-67 AntigenMiddle AgedMitotic IndexTriple Negative Breast Neoplasms
2020
Comparison of PD-L1 protein expression between primary tumors and metastatic lesions in triple negative breast cancers
Rozenblit M, Huang R, Danziger N, Hegde P, Alexander B, Ramkissoon S, Blenman K, Ross JS, Rimm DL, Pusztai L. Comparison of PD-L1 protein expression between primary tumors and metastatic lesions in triple negative breast cancers. Journal For ImmunoTherapy Of Cancer 2020, 8: e001558. PMID: 33239417, PMCID: PMC7689582, DOI: 10.1136/jitc-2020-001558.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overB7-H1 AntigenFemaleHumansMiddle AgedNeoplasm MetastasisRetrospective StudiesTriple Negative Breast NeoplasmsConceptsPD-L1 positivity ratePD-L1 positivityPD-L1 expressionDifferent metastatic sitesPrimary tumorMetastatic sitesPositivity rateImmune cellsMetastatic lesionsTumor cellsPD-L1 protein expressionTriple-negative breast cancerMore primary tumorsTriple negative breast cancer tumorsPrimary breast lesionsPrimary outcome measureSoft tissueNegative breast cancerLow positivity rateBreast cancer tumorsBone metastasesFoundation MedicineLymph nodesPD-L1Spearman correlation coefficientPD-L1 Protein Expression on Both Tumor Cells and Macrophages are Associated with Response to Neoadjuvant Durvalumab with Chemotherapy in Triple-negative Breast Cancer
Ahmed FS, Gaule P, McGuire J, Patel K, Blenman K, Pusztai L, Rimm DL. PD-L1 Protein Expression on Both Tumor Cells and Macrophages are Associated with Response to Neoadjuvant Durvalumab with Chemotherapy in Triple-negative Breast Cancer. Clinical Cancer Research 2020, 26: 5456-5461. PMID: 32709714, PMCID: PMC7572612, DOI: 10.1158/1078-0432.ccr-20-1303.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAntibodies, MonoclonalAntigens, CDAntigens, Differentiation, MyelomonocyticAntineoplastic Combined Chemotherapy ProtocolsB7-H1 AntigenBiomarkers, TumorCell ProliferationFemaleGene Expression Regulation, NeoplasticHumansLymphocytes, Tumor-InfiltratingMacrophagesMiddle AgedNeoadjuvant TherapyProgrammed Cell Death 1 ReceptorTriple Negative Breast NeoplasmsConceptsTriple-negative breast cancerPD-L1 expressionNeoadjuvant durvalumabTumor cellsImmune cellsBreast cancerPretreatment core-needle biopsiesPhase I/II clinical trialsPD-L1 protein expressionIMpassion 130 trialCore needle biopsyAmount of CD68Neoadjuvant settingMetastatic settingPD-L1Clinical trialsNeedle biopsyInsufficient tissuePatientsCD68Stromal compartmentQuantitative immunofluorescenceChemotherapyFinal analysisProtein expressionProspective multi-institutional evaluation of pathologist assessment of PD-L1 assays for patient selection in triple negative breast cancer
Reisenbichler ES, Han G, Bellizzi A, Bossuyt V, Brock J, Cole K, Fadare O, Hameed O, Hanley K, Harrison BT, Kuba MG, Ly A, Miller D, Podoll M, Roden AC, Singh K, Sanders MA, Wei S, Wen H, Pelekanou V, Yaghoobi V, Ahmed F, Pusztai L, Rimm DL. Prospective multi-institutional evaluation of pathologist assessment of PD-L1 assays for patient selection in triple negative breast cancer. Modern Pathology 2020, 33: 1746-1752. PMID: 32300181, PMCID: PMC8366569, DOI: 10.1038/s41379-020-0544-x.Peer-Reviewed Original ResearchMeSH KeywordsAntibodies, Monoclonal, HumanizedAntineoplastic AgentsB7-H1 AntigenBiomarkers, TumorFemaleHumansImmunohistochemistryPatient SelectionProspective StudiesReproducibility of ResultsTriple Negative Breast NeoplasmsConceptsTriple-negative breast cancerNegative breast cancerOverall percent agreementPD-L1Intraclass correlation coefficientBreast cancerAdvanced triple-negative breast cancerPD-L1 positive casesImmune cell stainingMultiple pathologistsPD-L1 scoringMulti-institutional evaluationLung cancer studiesAtezolizumab therapySP142 assaySP263 assaysPatient selectionSP263SP142US FoodDrug AdministrationPathologist's assessmentPositive casesReal-world settingPercent agreementThe path to a better biomarker: application of a risk management framework for the implementation of PD‐L1 and TILs as immuno‐oncology biomarkers in breast cancer clinical trials and daily practice
Gonzalez‐Ericsson P, Stovgaard ES, Sua LF, Reisenbichler E, Kos Z, Carter JM, Michiels S, Le Quesne J, Nielsen TO, Lænkholm A, Fox SB, Adam J, Bartlett JM, Rimm DL, Quinn C, Peeters D, Dieci MV, Vincent‐Salomon A, Cree I, Hida AI, Balko JM, Haynes HR, Frahm I, Acosta‐Haab G, Balancin M, Bellolio E, Yang W, Kirtani P, Sugie T, Ehinger A, Castaneda CA, Kok M, McArthur H, Siziopikou K, Badve S, Fineberg S, Gown A, Viale G, Schnitt SJ, Pruneri G, Penault‐Llorca F, Hewitt S, Thompson EA, Allison KH, Symmans WF, Bellizzi AM, Brogi E, Moore DA, Larsimont D, Dillon DA, Lazar A, Lien H, Goetz MP, Broeckx G, Bairi K, Harbeck N, Cimino‐Mathews A, Sotiriou C, Adams S, Liu S, Loibl S, Chen I, Lakhani SR, Juco JW, Denkert C, Blackley EF, Demaria S, Leon‐Ferre R, Gluz O, Zardavas D, Emancipator K, Ely S, Loi S, Salgado R, Sanders M, Group I. The path to a better biomarker: application of a risk management framework for the implementation of PD‐L1 and TILs as immuno‐oncology biomarkers in breast cancer clinical trials and daily practice. The Journal Of Pathology 2020, 250: 667-684. PMID: 32129476, DOI: 10.1002/path.5406.Peer-Reviewed Original ResearchMeSH KeywordsB7-H1 AntigenBiomarkers, TumorHumansLymphocytes, Tumor-InfiltratingRisk ManagementTriple Negative Breast NeoplasmsConceptsTriple-negative breast cancerTumor-infiltrating lymphocytesPD-L1Breast cancerPatient selectionInter-reader reproducibilityEarly-stage triple-negative breast cancerPD-1/PD-L1 inhibitorsStage triple-negative breast cancerAdvanced triple-negative breast cancerPD-1/PD-L1High tumor-infiltrating lymphocytesImmune checkpoint inhibitor therapyAddition of atezolizumabPD-L1 assessmentSuboptimal patient selectionCheckpoint inhibitor therapyOptimal patient selectionPD-L1 expressionPD-L1 inhibitorsDaily practiceStandard of careImmuno-therapeutic approachesNegative breast cancerEosin-stained slides
2019
Reanalysis of the NCCN PD-L1 companion diagnostic assay study for lung cancer in the context of PD-L1 expression findings in triple-negative breast cancer
Rimm DL, Han G, Taube JM, Yi ES, Bridge JA, Flieder DB, Homer R, Roden AC, Hirsch FR, Wistuba II, Pusztai L. Reanalysis of the NCCN PD-L1 companion diagnostic assay study for lung cancer in the context of PD-L1 expression findings in triple-negative breast cancer. Breast Cancer Research 2019, 21: 72. PMID: 31196152, PMCID: PMC6567382, DOI: 10.1186/s13058-019-1156-6.Peer-Reviewed Original ResearchMeSH KeywordsB7-H1 AntigenBiomarkers, TumorCarcinoma, Non-Small-Cell LungFemaleHumansImmunohistochemistryPrognosisTriple Negative Breast NeoplasmsConceptsPD-L1 expressionImmune cell PD-L1 expressionLung cancerImmune cellsTriple-negative breast cancerEasy scoring methodCompanion diagnostic testsPD-L1Immune therapyBreast cancerImmunohistochemical testsBetter outcomesLarger studyTumor cellsDiagnostic testsCancerExpression findingsCellsExpressionPoor agreementScoring methodTherapyTrials
2016
Triple-negative breast cancers with amplification of JAK2 at the 9p24 locus demonstrate JAK2-specific dependence
Balko JM, Schwarz LJ, Luo N, Estrada MV, Giltnane JM, Dávila-González D, Wang K, Sánchez V, Dean PT, Combs SE, Hicks D, Pinto JA, Landis MD, Doimi FD, Yelensky R, Miller VA, Stephens PJ, Rimm DL, Gómez H, Chang JC, Sanders ME, Cook RS, Arteaga CL. Triple-negative breast cancers with amplification of JAK2 at the 9p24 locus demonstrate JAK2-specific dependence. Science Translational Medicine 2016, 8: 334ra53. PMID: 27075627, PMCID: PMC5256931, DOI: 10.1126/scitranslmed.aad3001.Peer-Reviewed Original ResearchMeSH KeywordsAntineoplastic AgentsCell Line, TumorCell ProliferationChromosomes, Human, Pair 9Cohort StudiesFemaleGene AmplificationGene Knockdown TechniquesGenetic LociHumansJanus Kinase 2Middle AgedSignal TransductionSpheroids, CellularSTAT3 Transcription FactorSTAT6 Transcription FactorTriple Negative Breast NeoplasmsConceptsTriple-negative breast cancerJAK2 amplificationBreast cancerUntreated triple-negative breast cancerEventual metastatic spreadBasal-like cancersBreast cancer subtypesTNBC cell linesAmplification of JAK2Janus kinase 2 (JAK2) geneNeoadjuvant chemotherapyOverall survivalTNBC xenograftsJAK1/2 inhibitorClinical trialsMetastatic spreadKinase 2 geneJAK2-specific inhibitorTumor growthCancer subtypesMammosphere formationPatientsPotential biomarkersTumor progressionJAK2 inhibitorsRAS/MAPK Activation Is Associated with Reduced Tumor-Infiltrating Lymphocytes in Triple-Negative Breast Cancer: Therapeutic Cooperation Between MEK and PD-1/PD-L1 Immune Checkpoint Inhibitors
Loi S, Dushyanthen S, Beavis PA, Salgado R, Denkert C, Savas P, Combs S, Rimm DL, Giltnane JM, Estrada MV, Sánchez V, Sanders ME, Cook RS, Pilkinton MA, Mallal SA, Wang K, Miller VA, Stephens PJ, Yelensky R, Doimi FD, Gómez H, Ryzhov SV, Darcy PK, Arteaga CL, Balko JM. RAS/MAPK Activation Is Associated with Reduced Tumor-Infiltrating Lymphocytes in Triple-Negative Breast Cancer: Therapeutic Cooperation Between MEK and PD-1/PD-L1 Immune Checkpoint Inhibitors. Clinical Cancer Research 2016, 22: 1499-1509. PMID: 26515496, PMCID: PMC4794351, DOI: 10.1158/1078-0432.ccr-15-1125.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsB7-H1 AntigenBiomarkersCell Line, TumorDisease Models, AnimalDisease ProgressionFemaleGene Expression ProfilingHumansImmunomodulationImmunophenotypingLymphocytes, Tumor-InfiltratingMiceMitogen-Activated Protein KinasesMortalityPhenotypeProgrammed Cell Death 1 ReceptorProtein Kinase InhibitorsRas ProteinsSignal TransductionTranscriptomeTriple Negative Breast NeoplasmsConceptsTriple-negative breast cancerTumor-infiltrating lymphocytesImmune checkpoint inhibitorsResidual diseaseNeoadjuvant chemotherapyBreast cancerPD-L1Checkpoint inhibitorsMHC expressionMouse modelPD-1/PD-L1 immune checkpoint inhibitorsPD-L1 immune checkpoint inhibitorsPresence of TILsPD-1/PD-L1Low tumor-infiltrating lymphocytesPD-L1/PDAntitumor immune responseRAS/MAPK activationCell-surface MHC expressionMAPK activationImproved survivalImproved prognosisPredictive biomarkersClinical trialsImmune responsemiR-34a Silences c-SRC to Attenuate Tumor Growth in Triple-Negative Breast Cancer
Adams BD, Wali VB, Cheng CJ, Inukai S, Booth CJ, Agarwal S, Rimm DL, Győrffy B, Santarpia L, Pusztai L, Saltzman WM, Slack FJ. miR-34a Silences c-SRC to Attenuate Tumor Growth in Triple-Negative Breast Cancer. Cancer Research 2016, 76: 927-939. PMID: 26676753, PMCID: PMC4755913, DOI: 10.1158/0008-5472.can-15-2321.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell Line, TumorFemaleHumansMiceMice, NudeMicroRNAsProto-Oncogene MasSrc-Family KinasesTriple Negative Breast NeoplasmsConceptsTriple-negative breast cancerBreast cancerTumor growthMiR-34a replacement therapyTNBC cell linesDifferent TNBC subtypesPromising therapeutic strategyAttenuates tumor growthHuman clinical trialsMiRNA-profiling studiesMiR-34a levelsCell linesPotent antitumorigenic effectsMiR-34a targetsHuman tumor specimensC-SrcReplacement therapyTNBC subtypesAggressive subtypeTreatment optionsClinical trialsDisease progressionEffective therapyPatient outcomesC-Src inhibitor
2015
High level PHGDH expression in breast is predominantly associated with keratin 5‐positive cell lineage independently of malignancy
Gromova I, Gromov P, Honma N, Kumar S, Rimm D, Talman ML, Wielenga VT, Moreira JM. High level PHGDH expression in breast is predominantly associated with keratin 5‐positive cell lineage independently of malignancy. Molecular Oncology 2015, 9: 1636-1654. PMID: 26026368, PMCID: PMC5528790, DOI: 10.1016/j.molonc.2015.05.003.Peer-Reviewed Original ResearchMeSH KeywordsBreastCell Line, TumorCell LineageCohort StudiesFemaleHumansIsoenzymesKeratin-5MCF-7 CellsMiddle AgedPhosphoglycerate DehydrogenaseProteomeTissue Array AnalysisTriple Negative Breast NeoplasmsUp-RegulationConceptsOverexpression of PhgdhPHGDH expressionMammary epithelial cellsTriple-negative breast cancer patientsNegative breast cancer patientsEpithelial cellsBreast cancer patientsNormal breast tissueCell lineagesMammary tissue samplesHigh-level expressionExpression of PHGDHProspective cohortCancer patientsCK5-positive cellsBasal phenotypeProteomic profilingTNBC samplesIHC analysisQuantitative IHC analysisCancer typesBreast tissueMalignancyCandidate oncogeneOncogenic function
2014
ERβ splice variant expression in four large cohorts of human breast cancer patient tumors
Wimberly H, Han G, Pinnaduwage D, Murphy LC, Yang XR, Andrulis IL, Sherman M, Figueroa J, Rimm DL. ERβ splice variant expression in four large cohorts of human breast cancer patient tumors. Breast Cancer Research And Treatment 2014, 146: 657-667. PMID: 25007965, PMCID: PMC6939385, DOI: 10.1007/s10549-014-3050-3.Peer-Reviewed Original ResearchConceptsBreast cancerPatient tumorsERβ variantsQuantitative immunofluorescenceBreast cancer patient tumorsTriple-negative patientsBreast cancer outcomesAbsence of ERαBreast cancer biologyCancer patient tumorsBreast cancer patient samplesSplice variant expressionCancer patient samplesParaffin-embedded tissuesQIF scoresCancer outcomesPredictive biomarkersWorse outcomesEstrogen receptorLarge cohortSurvival analysisERβPatient samplesAQUA technologyVariant expression