2024
Comparative Kidney Uptake of Nanobody-Based PET Tracers Labeled with Various Fluorine-18-Labeled Prosthetic Groups
Olkowski C, Basuli F, Fernandes B, Ghaemi B, Shi J, Zhang H, Farber J, Escorcia F, Choyke P, Jacobson O. Comparative Kidney Uptake of Nanobody-Based PET Tracers Labeled with Various Fluorine-18-Labeled Prosthetic Groups. Molecular Pharmaceutics 2024, 22: 533-543. PMID: 39680709, DOI: 10.1021/acs.molpharmaceut.4c01101.Peer-Reviewed Original ResearchTislelizumab plus cetuximab and irinotecan in refractory microsatellite stable and RAS wild-type metastatic colorectal cancer: a single-arm phase 2 study
Xu X, Ai L, Hu K, Liang L, Lv M, Wang Y, Cui Y, Li W, Li Q, Yu S, Feng Y, Liu Q, Yang Y, Zhang J, Xu F, Yu Y, Liu T. Tislelizumab plus cetuximab and irinotecan in refractory microsatellite stable and RAS wild-type metastatic colorectal cancer: a single-arm phase 2 study. Nature Communications 2024, 15: 7255. PMID: 39179622, PMCID: PMC11343749, DOI: 10.1038/s41467-024-51536-x.Peer-Reviewed Original ResearchConceptsMetastatic colorectal cancerVariant allele frequencyPhase 2 studyEpidermal growth factor receptorAdverse eventsRAS wild-type metastatic colorectal cancerRAS wt metastatic colorectal cancerSingle-arm phase 2 studyWild-type metastatic colorectal cancerColorectal cancerTreatment-related adverse eventsAnti-PD-1Disease control rateProgression-free survivalRAS wild-typeTumor immune responseCombined treatment regimenWild-typeGrowth factor receptorIrinotecan combinationOverall survivalAnti-EGFRPrimary endpointTumor DNASingle-armInterstitial Lung Diseases and Non-Small Cell Lung Cancer: Particularities in Pathogenesis and Expression of Driver Mutations
Sampsonas F, Bosgana P, Bravou V, Tzouvelekis A, Dimitrakopoulos F, Kokkotou E. Interstitial Lung Diseases and Non-Small Cell Lung Cancer: Particularities in Pathogenesis and Expression of Driver Mutations. Genes 2024, 15: 934. PMID: 39062713, PMCID: PMC11276289, DOI: 10.3390/genes15070934.Peer-Reviewed Original ResearchConceptsInterstitial lung diseaseLung cancerLung diseaseDriver mutationsImproved survivalTreatment optionsChronic inflammationPathogenetic pathwaysNon-small cell lung cancerConcurrent interstitial lung diseaseCell lung cancerSites of chronic inflammationAnti-fibrotic medicationsCurrent treatment optionsIdiopathic pulmonary fibrosisDiseases associated with chronic inflammationIncidence of lung cancerPersonalized medicine approachPrompt diagnosisClinical entityNon-smallPulmonary fibrosisNSCLCSurvival ratePatientsPhase II Trial of Afatinib in Patients With EGFR-Mutated Solid Tumors Excluding Lung Cancer: Results From NCI-MATCH ECOG-ACRIN Trial (EAY131) Subprotocol A
Gettinger S, Song Z, Reckamp K, Moscow J, Gray R, Wang V, McShane L, Rubinstein L, Patton D, Williams P, Hamilton S, Kong X, Tricoli J, Conley B, Arteaga C, Harris L, O'Dwyer P, Chen A, Flaherty K. Phase II Trial of Afatinib in Patients With EGFR-Mutated Solid Tumors Excluding Lung Cancer: Results From NCI-MATCH ECOG-ACRIN Trial (EAY131) Subprotocol A. JCO Precision Oncology 2024, 8: e2300725. PMID: 38986051, DOI: 10.1200/po.23.00725.Peer-Reviewed Original ResearchMeSH KeywordsAdultAfatinibAgedAged, 80 and overErbB ReceptorsFemaleHumansMaleMiddle AgedMutationNeoplasmsConceptsProgression-free survivalTyrosine kinase inhibitorsEGFR tyrosine kinase inhibitorsNCI-MATCHLung cancerGlioblastoma multiformeOverall survivalAdvanced non-small cell lung cancerNational Cancer Institute-Molecular AnalysisNon-small cell lung cancerEnd pointsTumor genomic testingTrial primary end pointPhase 2 trialPhase II trialSecondary end pointsPrimary end pointCell lung cancerCohort of patientsMedian OSStable diseaseAdenosquamous carcinomaProtocol therapyPartial responseArm ADetecting small cell transformation in patients with advanced EGFR mutant lung adenocarcinoma through epigenomic cfDNA profiling
Zarif T, Meador C, Qiu X, Seo J, Davidsohn M, Savignano H, Lakshminarayanan G, McClure H, Canniff J, Fortunato B, Li R, Banwait M, Semaan K, Eid M, Long H, Hung Y, Mahadevan N, Barbie D, Oser M, Piotrowska Z, Choueiri T, Baca S, Hata A, Freedman M, Berchuck J. Detecting small cell transformation in patients with advanced EGFR mutant lung adenocarcinoma through epigenomic cfDNA profiling. Clinical Cancer Research 2024, 30: 3798-3811. PMID: 38912901, PMCID: PMC11369616, DOI: 10.1158/1078-0432.ccr-24-0466.Peer-Reviewed Original ResearchConceptsEGFR mutant lung adenocarcinomaSmall cell lung cancerSmall cell transformationLung cancer patient-derived xenograftPatient-derived xenograftsLung adenocarcinomaEGFR mutantsChIP-seqEpigenomic featuresMeDIP-seqImmunoprecipitation sequencingCell transformationHistological transformation to small cell lung cancerTransformation to small cell lung cancerMethylated DNA immunoprecipitation sequencingTransposase-accessible chromatin sequencingH3K27ac ChIP-seqMechanisms of treatment resistanceChromatin immunoprecipitation sequencingHistone modification H3K27acMutant lung adenocarcinomaCell lung cancerChromatin accessibilityChromatin sequencingEpigenomic landscapeEGFR targeting PhosTACs as a dual inhibitory approach reveals differential downstream signaling
Hu Z, Chen P, Li W, Krone M, Zheng S, Saarbach J, Velasco I, Hines J, Liu Y, Crews C. EGFR targeting PhosTACs as a dual inhibitory approach reveals differential downstream signaling. Science Advances 2024, 10: eadj7251. PMID: 38536914, PMCID: PMC10971414, DOI: 10.1126/sciadv.adj7251.Peer-Reviewed Original ResearchMeSH KeywordsApoptosisCell Line, TumorErbB ReceptorsHumansPhosphorylationProteolysis Targeting ChimeraSignal TransductionTyrosineConceptsInhibit cancer cell viabilityProteome-wide levelCancer cell viabilityDifferential signaling pathwaysPhosphoproteomic approachTyrosine dephosphorylationProtein dephosphorylationSignal transductionActivating dephosphorylationInduce apoptosisReceptor tyrosine kinase inhibitorsRTK activationSignaling pathwayInhibition of kinasesDephosphorylationEpidermal growth factor receptorGrowth factor receptorCell viabilityFactor receptorInhibitory approachesTyrosineTyrosine kinase inhibitorsInhibitory effectInhibitory potentialKinase inhibitorsTransformation to small cell lung cancer is irrespective of EGFR and accelerated by SMAD4-mediated ASCL1 transcription independently of RB1 in non-small cell lung cancer
Ding X, Shi M, Liu D, Cao J, Zhang K, Zhang R, Zhang L, Ai K, Su B, Zhang J. Transformation to small cell lung cancer is irrespective of EGFR and accelerated by SMAD4-mediated ASCL1 transcription independently of RB1 in non-small cell lung cancer. Cell Communication And Signaling 2024, 22: 45. PMID: 38233864, PMCID: PMC10795321, DOI: 10.1186/s12964-023-01260-8.Peer-Reviewed Original ResearchConceptsNon-small cell lung cancerSmall cell lung cancerSmall cell lung cancer transformationCell lung cancerTransformation to small cell lung cancerLung cancerEGFR-mutant non-small cell lung cancerMYC inhibitorsNon-small cell lung cancer patientsMechanisms of TKI resistanceEGFR mutation statusResistant lung cancerNon-small cell lung cancer cellsDriver gene statusPhenotype in vitroCancer-related genesPotential functional genesPutative gene functionsCRISPR-Cas 9SCLC transformationTKI resistanceMutation statusNeuroendocrine phenotypeRB1 statusClinical characteristics
2023
Determination and Confirmation of Recommended Ph2 Dose of Amivantamab in Epidermal Growth Factor Receptor Exon 20 Insertion Non‐Small Cell Lung Cancer
Haddish‐Berhane N, Su Y, Russu A, Thayu M, Knoblauch R, Mehta J, Xie J, Gibbs E, Sun Y, Zhou H. Determination and Confirmation of Recommended Ph2 Dose of Amivantamab in Epidermal Growth Factor Receptor Exon 20 Insertion Non‐Small Cell Lung Cancer. Clinical Pharmacology & Therapeutics 2023, 115: 468-477. PMID: 37776107, DOI: 10.1002/cpt.3064.Peer-Reviewed Original ResearchMeSH KeywordsAntibodies, BispecificCarcinoma, Non-Small-Cell LungErbB ReceptorsExonsHumansLung NeoplasmsConceptsNon-small cell lung cancerCell lung cancerLung cancerAdverse events of clinical interestEpidermal growth factor receptor-exonPopPK modelRecommended phase II dosePrimary efficacy end pointEGFR exon 20 insertionsPhase II doseExon 20 insertionsEfficacy end pointCovariates of clearanceVolume of distributionE-R relationshipSerum concentration dataEGFR ex20insII doseExposure-response analysesPlatinum chemotherapyExposure-responseEfficacy analysisPK variabilityPopulation PKAmivantamabInhibition of a lower potency target drives the anticancer activity of a clinical p38 inhibitor
Bhattacharjee D, Bakar J, Chitnis S, Sausville E, Ashtekar K, Mendelson B, Long K, Smith J, Heppner D, Sheltzer J. Inhibition of a lower potency target drives the anticancer activity of a clinical p38 inhibitor. Cell Chemical Biology 2023, 30: 1211-1222.e5. PMID: 37827156, PMCID: PMC10715717, DOI: 10.1016/j.chembiol.2023.09.013.Peer-Reviewed Original ResearchMeSH KeywordsErbB ReceptorsHumansLung NeoplasmsMitogen-Activated Protein Kinase 14MutationProtein Kinase InhibitorsOsimertinib in Resected EGFR-Mutated NSCLC. Reply.
Tsuboi M, Herbst R, Wu Y. Osimertinib in Resected EGFR-Mutated NSCLC. Reply. New England Journal Of Medicine 2023, 389: 1342. PMID: 37792623, DOI: 10.1056/nejmc2309385.Peer-Reviewed Original ResearchCholesterol-dependent homeostatic regulation of very long chain sphingolipid synthesis
Kim Y, Mavodza G, Senkal C, Burd C. Cholesterol-dependent homeostatic regulation of very long chain sphingolipid synthesis. Journal Of Cell Biology 2023, 222: e202308055. PMID: 37787764, PMCID: PMC10547602, DOI: 10.1083/jcb.202308055.Peer-Reviewed Original ResearchConceptsPlasma membraneEpidermal growth factor receptor signalingMembrane lipid homeostasisGrowth factor receptor signalingAcute cholesterol depletionCellular cholesterol homeostasisPlasma membrane cholesterol contentCellular cholesterol levelsMembrane lipid packingSterol-responsive elementMembrane cholesterol contentProtein translationCytoplasmic leafletCholesterol depletionSphingolipid synthesisGolgi apparatusProtein pathwayResponsive elementLipid homeostasisRegulatory axisReceptor signalingLysosome membraneSphingomyelin synthesisAccumulation of cholesterolMetabolic axisMammalian SWI/SNF chromatin remodeling complexes promote tyrosine kinase inhibitor resistance in EGFR-mutant lung cancer
de Miguel F, Gentile C, Feng W, Silva S, Sankar A, Exposito F, Cai W, Melnick M, Robles-Oteiza C, Hinkley M, Tsai J, Hartley A, Wei J, Wurtz A, Li F, Toki M, Rimm D, Homer R, Wilen C, Xiao A, Qi J, Yan Q, Nguyen D, Jänne P, Kadoch C, Politi K. Mammalian SWI/SNF chromatin remodeling complexes promote tyrosine kinase inhibitor resistance in EGFR-mutant lung cancer. Cancer Cell 2023, 41: 1516-1534.e9. PMID: 37541244, PMCID: PMC10957226, DOI: 10.1016/j.ccell.2023.07.005.Peer-Reviewed Original ResearchConceptsMammalian SWI/SNF chromatinSWI/SNF chromatinMSWI/SNF complexesGenome-wide localizationGene regulatory signaturesNon-genetic mechanismsEpithelial cell differentiationEGFR-mutant cellsChromatin accessibilitySNF complexCellular programsRegulatory signaturesTKI-resistant lung cancerGene targetsKinase inhibitor resistanceCell differentiationMesenchymal transitionTKI resistancePharmacologic disruptionTyrosine kinase inhibitor resistanceCell proliferationChromatinInhibitor resistanceEGFR-mutant lungKinase inhibitorsInjury prevents Ras mutant cell expansion in mosaic skin
Gallini S, Annusver K, Rahman N, Gonzalez D, Yun S, Matte-Martone C, Xin T, Lathrop E, Suozzi K, Kasper M, Greco V. Injury prevents Ras mutant cell expansion in mosaic skin. Nature 2023, 619: 167-175. PMID: 37344586, PMCID: PMC10322723, DOI: 10.1038/s41586-023-06198-y.Peer-Reviewed Original ResearchMeSH KeywordsCell CycleCell ProliferationCyclin-Dependent Kinase Inhibitor p21ErbB ReceptorsGenes, rasMosaicismMutationras ProteinsSkinConceptsWild-type cellsRas family proteinsCell cycle inhibitor p21Family proteinsOncogenic RasGenetic approachesMosaic tissuesInhibition of EGFRInhibitor p21EGFR ligandsEGFR pathwayCell expansionAberrant growthConstitutive lossDifferential activationParacrine secretionAbsence of injuryCellsCompetitive balanceInjury repairHealthy skinInjurySkinProteinPathwayOverall Survival with Osimertinib in Resected EGFR-Mutated NSCLC
Tsuboi M, Herbst R, John T, Kato T, Majem M, Grohé C, Wang J, Goldman J, Lu S, Su W, de Marinis F, Shepherd F, Lee K, Le N, Dechaphunkul A, Kowalski D, Poole L, Bolanos A, Rukazenkov Y, Wu Y. Overall Survival with Osimertinib in Resected EGFR-Mutated NSCLC. New England Journal Of Medicine 2023, 389: 137-147. PMID: 37272535, DOI: 10.1056/nejmoa2304594.Peer-Reviewed Original ResearchConceptsDisease-free survivalOverall survivalIIIA diseaseStage IBAdjuvant osimertinibPlacebo groupOsimertinib groupNew serious adverse eventsSignificant overall survival benefitStage IILonger disease-free survivalEnd pointData cutoff datePrevious adjuvant chemotherapyDouble-blind trialOverall survival benefitPrimary end pointSecondary end pointsSerious adverse eventsCell lung cancerCoronavirus disease 2019Epidermal growth factor receptorADAURA trialAdjuvant chemotherapyEligible patientsThree-Year Safety, Tolerability, and Health-Related Quality of Life Outcomes of Adjuvant Osimertinib in Patients With Resected Stage IB to IIIA EGFR-Mutated NSCLC: Updated Analysis From the Phase 3 ADAURA Trial
John T, Grohé C, Goldman J, Shepherd F, de Marinis F, Kato T, Wang Q, Su W, Choi J, Sriuranpong V, Melotti B, Fidler M, Chen J, Albayaty M, Stachowiak M, Taggart S, Wu Y, Tsuboi M, Herbst R, Majem M. Three-Year Safety, Tolerability, and Health-Related Quality of Life Outcomes of Adjuvant Osimertinib in Patients With Resected Stage IB to IIIA EGFR-Mutated NSCLC: Updated Analysis From the Phase 3 ADAURA Trial. Journal Of Thoracic Oncology 2023, 18: 1209-1221. PMID: 37236398, DOI: 10.1016/j.jtho.2023.05.015.Peer-Reviewed Original ResearchConceptsThree-year safetyAdverse eventsAdjuvant osimertinibStage IBWeek 12Treatment completionCommon adverse eventsMost adverse eventsResected stage IBSignificant efficacy benefitDisease-free survivalNew safety signalsSF-36 surveyHealth-related qualityInterstitial lung diseaseMental component summaryTotal exposure durationADAURA trialWeek 24Component summaryEfficacy benefitsOsimertinib treatmentSF-36Lung diseaseSafety signalsEfficacy of Osimertinib in Patients with Lung Cancer Positive for Uncommon EGFR Exon 19 Deletion Mutations
Grant M, Aredo J, Starrett J, Stockhammer P, van Rosenburgh I, Wurtz A, Piper-Valillo A, Piotrowska Z, Falcon C, Yu H, Aggarwal C, Scholes D, Patil T, Nguyen C, Phadke M, Li F, Neal J, Lemmon M, Walther Z, Politi K, Goldberg S. Efficacy of Osimertinib in Patients with Lung Cancer Positive for Uncommon EGFR Exon 19 Deletion Mutations. Clinical Cancer Research 2023, 29: of1-of8. PMID: 36913537, PMCID: PMC10493186, DOI: 10.1158/1078-0432.ccr-22-3497.Peer-Reviewed Original ResearchConceptsProgression-free survivalNon-small cell lung cancerInferior progression-free survivalMulticenter retrospective cohortEfficacy of osimertinibMulti-institutional cohortCell lung cancerExon 19 deletion mutationUncommon EGFRRetrospective cohortClinical outcomesClinical efficacyLung cancerOsimertinib efficacyEGFR mutationsPreclinical modelsEx19delPatientsAACR Genie databaseLater linesOsimertinibMutant cohortFirst lineCohortEfficacyAn intrinsic purine metabolite AICAR blocks lung tumour growth by targeting oncoprotein mucin 1
Aftab F, Rodriguez-Fuguet A, Silva L, Kobayashi I, Sun J, Politi K, Levantini E, Zhang W, Kobayashi S, Zhang W. An intrinsic purine metabolite AICAR blocks lung tumour growth by targeting oncoprotein mucin 1. British Journal Of Cancer 2023, 128: 1647-1664. PMID: 36810913, PMCID: PMC10133251, DOI: 10.1038/s41416-023-02196-z.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell Line, TumorErbB ReceptorsLungLung NeoplasmsMiceMice, TransgenicMucin-1Oncogene ProteinsPurinesConceptsProtein-protein interactionsProximity ligation assayWhole transcriptomic profileEGFR inhibitorsMUC1-CTThermal stability assaysRNA sequencingTransgenic micePurine biosynthesisTranscriptomic profilesAICARTumor cell growthLigation assayMucin 1DNA damageCell growthMethodsCell viabilityLung tumor tissuesTumor formationCancer cellsEGFR-mutant lung cancerStability assaysJAKJAK1Dual immunofluorescence stainingAdjuvant Osimertinib for Resected EGFR-Mutated Stage IB-IIIA Non–Small-Cell Lung Cancer: Updated Results From the Phase III Randomized ADAURA Trial
Herbst R, Wu Y, John T, Grohe C, Majem M, Wang J, Kato T, Goldman J, Laktionov K, Kim S, Yu C, Vu H, Lu S, Lee K, Mukhametshina G, Akewanlop C, de Marinis F, Bonanno L, Domine M, Shepherd F, Urban D, Huang X, Bolanos A, Stachowiak M, Tsuboi M. Adjuvant Osimertinib for Resected EGFR-Mutated Stage IB-IIIA Non–Small-Cell Lung Cancer: Updated Results From the Phase III Randomized ADAURA Trial. Journal Of Clinical Oncology 2023, 41: 1830-1840. PMID: 36720083, PMCID: PMC10082285, DOI: 10.1200/jco.22.02186.Peer-Reviewed Original ResearchConceptsII-IIIA diseaseStage IB-IIIAAdjuvant osimertinibDFS HRDFS ratesDistant recurrenceEnd pointSafety profileLung cancerSignificant disease-free survival benefitPrimary analysisDisease-free survival benefitLong-term safety profileSmall cell lung cancerStratified log-rank testExploratory end pointsPrimary end pointSecondary end pointsConsistent safety profilePatterns of recurrenceCell lung cancerComplete tumor resectionLog-rank testADAURA trialData cutoffTreating Head and Neck Cancer in the Age of Immunotherapy: A 2023 Update
Bhatia A, Burtness B. Treating Head and Neck Cancer in the Age of Immunotherapy: A 2023 Update. Drugs 2023, 83: 217-248. PMID: 36645621, DOI: 10.1007/s40265-023-01835-2.Commentaries, Editorials and LettersConceptsNeck cancerRecurrent/metastatic settingImmune checkpoint inhibitor nivolumabNeck squamous cell carcinomaAge of immunotherapyLate stage HNSCCImmune checkpoint inhibitionPlatinum-containing chemotherapyFirst-line treatmentGrowth factor receptor overexpressionCheckpoint inhibitor nivolumabSquamous cell carcinomaEpidermal growth factor receptor (EGFR) overexpressionPathogenesis of HNSCCTreatment of patientsTreatment of HNSCCManagement of headMonoclonal antibody cetuximabCurative intentPalliative chemotherapyAdvanced diseaseInhibitor nivolumabLocoregional failureMetastatic settingMultimodality therapy
2022
Brain metastatic outgrowth and osimertinib resistance are potentiated by RhoA in EGFR-mutant lung cancer
Adua S, Arnal-Estapé A, Zhao M, Qi B, Liu Z, Kravitz C, Hulme H, Strittmatter N, López-Giráldez F, Chande S, Albert A, Melnick M, Hu B, Politi K, Chiang V, Colclough N, Goodwin R, Cross D, Smith P, Nguyen D. Brain metastatic outgrowth and osimertinib resistance are potentiated by RhoA in EGFR-mutant lung cancer. Nature Communications 2022, 13: 7690. PMID: 36509758, PMCID: PMC9744876, DOI: 10.1038/s41467-022-34889-z.Peer-Reviewed Original ResearchConceptsGene expression programsRas homolog family member ACancer cellsFamily member AEpidermal growth factor receptorExpression programsMetastatic cancer cellsSRF signalingGrowth factor receptorTumor microenvironmentLung cancerFunctional linkExtracellular lamininDrug-resistant cancer cellsMutant non-small cell lung cancerNon-small cell lung cancerCentral nervous system relapseMolecular studiesMember AEGFR-mutant lung cancerFactor receptorNervous system relapseCell lung cancerDisseminated tumor cellsBrain tumor microenvironment
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply