2021
Treatment scheduling effects on the evolution of drug resistance in heterogeneous cancer cell populations
Patwardhan GA, Marczyk M, Wali VB, Stern DF, Pusztai L, Hatzis C. Treatment scheduling effects on the evolution of drug resistance in heterogeneous cancer cell populations. Npj Breast Cancer 2021, 7: 60. PMID: 34040000, PMCID: PMC8154902, DOI: 10.1038/s41523-021-00270-4.Peer-Reviewed Original ResearchHeterogeneous cancer cell populationsCancer cell populationsTriple-negative breast cancerSingle-cell RNA sequencingCell populationsFitness advantageRNA sequencingMDA-MB-231 TNBC cellsDrug resistanceMechanisms of resistanceVitro screening assaysClonal dynamicsTNBC cellsScreening assaysResistant clonesPatterns of resistanceConcomitant treatmentTherapy combinationsBreast cancerClinical studiesTreatment doseTreatment scheduleBarcodesSequencingTreatment
2016
Deciphering and Targeting Oncogenic Mutations and Pathways in Breast Cancer
Santarpia L, Bottai G, Kelly CM, Győrffy B, Székely B, Pusztai L. Deciphering and Targeting Oncogenic Mutations and Pathways in Breast Cancer. The Oncologist 2016, 21: 1063-1078. PMID: 27384237, PMCID: PMC5016060, DOI: 10.1634/theoncologist.2015-0369.Peer-Reviewed Original ResearchConceptsBreast cancerCancer-causing genesCopy number variationsRNA speciesRNA editingGenomic variationNext-generation sequencingRNA sequencingGenomic complexityGenomic portraitGreater genomic complexityOncogenic mutationsOncogenic eventsTarget profilingRare mutationsMutationsRecurrent mutationsSomatic variantsGenetic aberrationsFormal clinical trialsPotential therapeutic implicationsDriver mutationsSequencingGermline variantsMolecular abnormalities
2015
Discovery and disclosure of incidental genetic information obtained through high throughput sequencing.
Hofstatter E, Yushak M, Bouberhan S, Han G, Epstein L, Pusztai L. Discovery and disclosure of incidental genetic information obtained through high throughput sequencing. Journal Of Clinical Oncology 2015, 33: e17779-e17779. DOI: 10.1200/jco.2015.33.15_suppl.e17779.Peer-Reviewed Original Research
2013
Development and validation of a clinical cancer genomic profiling test based on massively parallel DNA sequencing
Frampton GM, Fichtenholtz A, Otto GA, Wang K, Downing SR, He J, Schnall-Levin M, White J, Sanford EM, An P, Sun J, Juhn F, Brennan K, Iwanik K, Maillet A, Buell J, White E, Zhao M, Balasubramanian S, Terzic S, Richards T, Banning V, Garcia L, Mahoney K, Zwirko Z, Donahue A, Beltran H, Mosquera JM, Rubin MA, Dogan S, Hedvat CV, Berger MF, Pusztai L, Lechner M, Boshoff C, Jarosz M, Vietz C, Parker A, Miller VA, Ross JS, Curran J, Cronin MT, Stephens PJ, Lipson D, Yelensky R. Development and validation of a clinical cancer genomic profiling test based on massively parallel DNA sequencing. Nature Biotechnology 2013, 31: 1023-1031. PMID: 24142049, PMCID: PMC5710001, DOI: 10.1038/nbt.2696.Peer-Reviewed Original Research