2019
Targeting the epigenome of pancreatic cancer for therapy: challenges and opportunities
Baretti M, Ahuja N, Azad N. Targeting the epigenome of pancreatic cancer for therapy: challenges and opportunities. Annals Of Pancreatic Cancer 2019, 2: 18-18. DOI: 10.21037/apc.2019.10.01.Peer-Reviewed Original ResearchEpigenetic modulatory drugsEpigenetic alterationsGene expressionImmediate translational implicationsProgression of PAADEpigenetic regulationHeritable differencesEpigenetic abnormalitiesPrimary sequenceTumor microenvironmentNucleosomesEssential roleCurrent knowledgeTranslational applicationsComplex seriesDNATranslational implicationsNew therapeutic approachesExpressionPancreatic adenocarcinomaEpigenomeChromatinEpigeneticsSubsequent interactionAlterations
2017
Epigenetically altered miR-1247 functions as a tumor suppressor in pancreatic cancer
Yi JM, Kang EJ, Kwon HM, Bae JH, Kang K, Ahuja N, Yang K. Epigenetically altered miR-1247 functions as a tumor suppressor in pancreatic cancer. Oncotarget 2017, 5: 26600-26612. PMID: 28460450, PMCID: PMC5432282, DOI: 10.18632/oncotarget.15722.Peer-Reviewed Original ResearchConceptsCpG island hypermethylationTumor suppressorEctopic expressionPancreatic cancer cellsIsland hypermethylationPancreatic cancer cell linesHuman cancersPutative target genesCancer cell linesNumber of miRNAsChromosome condensation 2Role of miRNAsCell linesMolecular functional roleCancer cellsCpG island methylationPotential tumor suppressorTarget genesEpigenetic alterationsGene expressionMalignant human cancersIsland methylationDirect targetLuciferase reporterFunctional role
2016
DNA methylation changes in extracellular remodeling pathway genes during the transformation of human mesenchymal stem cells
Kim T, Park S, Kim H, Ahuja N, Yi J. DNA methylation changes in extracellular remodeling pathway genes during the transformation of human mesenchymal stem cells. Genes & Genomics 2016, 38: 611-617. DOI: 10.1007/s13258-016-0402-x.Peer-Reviewed Original ResearchTranscriptional silencingPathway genesECM genesMesenchymal compartmentStem cell model systemPromoter DNA hypermethylationPromoter hypermethylationDNA methylation changesGene expression profile dataEssential structural componentKey cellular eventsExpression profile dataImportant functional roleExtracellular matrix moleculesColon cancer cell linesCell model systemHuman mesenchymal stem cellsMethylation patternsMethylation changesTranscription-polymerase chain reaction analysisDNA hypermethylationEpigenetic alterationsReverse transcription-polymerase chain reaction analysisHuman malignancesCellular events
2011
Genomic and Epigenomic Integration Identifies a Prognostic Signature in Colon Cancer
Yi JM, Dhir M, Van Neste L, Downing SR, Jeschke J, Glöckner SC, de Freitas Calmon M, Hooker CM, Funes JM, Boshoff C, Smits KM, van Engeland M, Weijenberg MP, Iacobuzio-Donahue CA, Herman JG, Schuebel KE, Baylin SB, Ahuja N. Genomic and Epigenomic Integration Identifies a Prognostic Signature in Colon Cancer. Clinical Cancer Research 2011, 17: 1535-1545. PMID: 21278247, PMCID: PMC3077819, DOI: 10.1158/1078-0432.ccr-10-2509.Peer-Reviewed Original ResearchConceptsDNA methylationExtracellular matrixDNA methylation analysisEpigenetic mechanismsKey genesEpigenomic alterationsCore pathwaysEpigenetic abnormalitiesPathway genesECM genesMultiple genesEpigenetic alterationsPathway componentsPathway analysisIntegrative analysisLarge CRC cohortsGenesMethylationMethylation analysisSimultaneous methylationPathway disruptionPathwayAggregate roleNovel prognostic biomarkerEVL
2008
Convergence of Mutation and Epigenetic Alterations Identifies Common Genes in Cancer That Predict for Poor Prognosis
Chan TA, Glockner S, Yi JM, Chen W, Van Neste L, Cope L, Herman JG, Velculescu V, Schuebel KE, Ahuja N, Baylin SB. Convergence of Mutation and Epigenetic Alterations Identifies Common Genes in Cancer That Predict for Poor Prognosis. PLOS Medicine 2008, 5: e114. PMID: 18507500, PMCID: PMC2429944, DOI: 10.1371/journal.pmed.0050114.Peer-Reviewed Original ResearchConceptsTumor suppressor geneUnbiased genome-wide approachSuppressor geneGenome-wide approachesKey tumor suppressor genesBreast cancer cell linesSet of genesCancer cell linesLarge-scale sequencingTumor suppressor statusPromoter CpG island hypermethylationCell linesCpG island hypermethylationTumor-type specificRecent sequencingBiology of cancerEpigenetic eventsCancer genomesEpigenetic analysisEpigenetic alterationsCommon genesTumor suppressorSignificant genesGenetic changesIsland hypermethylation
2000
Distinct genetic profiles in colorectal tumors with or without the CpG island methylator phenotype
Toyota M, Ohe-Toyota M, Ahuja N, Issa J. Distinct genetic profiles in colorectal tumors with or without the CpG island methylator phenotype. Proceedings Of The National Academy Of Sciences Of The United States Of America 2000, 97: 710-715. PMID: 10639144, PMCID: PMC15395, DOI: 10.1073/pnas.97.2.710.Peer-Reviewed Original ResearchMeSH KeywordsAdenomaBase SequenceColorectal NeoplasmsCpG IslandsDNA MethylationDNA Mutational AnalysisDNA, NeoplasmGenes, p16Genes, p53Genes, rasHumansMicrosatellite RepeatsMutationPhenotypePoint MutationPolymorphism, Single-Stranded ConformationalProtein Serine-Threonine KinasesReceptor, Transforming Growth Factor-beta Type IIReceptors, Transforming Growth Factor betaSequence DeletionTumor Cells, CulturedConceptsCpG island methylator phenotypeColorectal cancerK-RAS mutationsDifferent genetic lesionsActivation of oncogenesTumor suppressor geneMultiple CpG islandsColorectal tumorsMethylator phenotypeCpG islandsDistinct genetic profilesP53 mutationsEpigenetic alterationsMolecular diversitySuppressor geneGenetic lesionsNovel pathwayGroup of tumorsGenetic alterationsK-RASMutationsCancer developmentSimultaneous methylationGenes