2022
Keeping RelApse in Chk: molecular mechanisms of Chk1 inhibitor resistance in lymphoma
Black E, Joo Y, Kabeche L. Keeping RelApse in Chk: molecular mechanisms of Chk1 inhibitor resistance in lymphoma. Biochemical Journal 2022, 479: 2345-2349. PMID: 36416754, PMCID: PMC9704517, DOI: 10.1042/bcj20220461.Peer-Reviewed Original ResearchConceptsReplication stressChk1 activityDNA damage response pathwayChk1 inhibitorsDNA replication stressInhibitor resistanceDamage response pathwayGenome instabilityPI3K/AktResponse pathwaysMolecular mechanismsNovel roleChk1Cancer therapyCancer developmentFemale fertilityDevelopment of resistancePathwayLethal levelsMultiple mechanismsAlternative pathwayNF-κBDrug resistanceIntriguing targetDisease states
2016
Genomic Instability Is Induced by Persistent Proliferation of Cells Undergoing Epithelial-to-Mesenchymal Transition
Comaills V, Kabeche L, Morris R, Buisson R, Yu M, Madden MW, LiCausi JA, Boukhali M, Tajima K, Pan S, Aceto N, Sil S, Zheng Y, Sundaresan T, Yae T, Jordan NV, Miyamoto DT, Ting DT, Ramaswamy S, Haas W, Zou L, Haber DA, Maheswaran S. Genomic Instability Is Induced by Persistent Proliferation of Cells Undergoing Epithelial-to-Mesenchymal Transition. Cell Reports 2016, 17: 2632-2647. PMID: 27926867, PMCID: PMC5320932, DOI: 10.1016/j.celrep.2016.11.022.Peer-Reviewed Original ResearchConceptsGenomic instabilityCancer cellsNuclear envelope proteinsMesenchymal transitionHeritable genetic changesHeritable changesMitotic defectsMitotic regulationTumorigenic phenotypeProliferation arrestMicroenvironment-derived signalsMitotic abnormalitiesStromal signalsGenetic changesMesenchymal marker expressionCancer progressionReversible phenotypeEnvelope proteinEpithelial cellsPersistent proliferationPhenotypeCellsMarker expressionDrug resistanceTGF