2020
MicroRNA‑34a expression affects breast cancer invasion in vitro and patient survival via downregulation of E2F1 and E2F3 expression.
Han R, Zhao J, Lu L. MicroRNA‑34a expression affects breast cancer invasion in vitro and patient survival via downregulation of E2F1 and E2F3 expression. Oncology Reports 2020, 43: 2062-2072. PMID: 32186770, DOI: 10.3892/or.2020.7549.Peer-Reviewed Original ResearchConceptsBreast cancerNormal breast tissueMDA-MB-231 cellsPatient survivalT-47DKaplan-Meier survival curvesBreast tissueCancer-associated mortalityLonger survival timeCommon cancer typesExpression levelsReverse transcription-quantitative PCRPotential therapeutic toolBreast cancer invasionMicroRNA-34a expressionTranscription-quantitative PCRTumor cell proliferationOverall survivalUnderlying molecular mechanismsCaspase-3 activityDownregulation of E2F1Clinical managementExpression of E2F1Survival timeClinical relevance
2014
Regulation of tumor cell migration and invasion by the H19/let-7 axis is antagonized by metformin-induced DNA methylation
Yan L, Zhou J, Gao Y, Ghazal S, Lu L, Bellone S, Yang Y, Liu N, Zhao X, Santin AD, Taylor H, Huang Y. Regulation of tumor cell migration and invasion by the H19/let-7 axis is antagonized by metformin-induced DNA methylation. Oncogene 2014, 34: 3076-3084. PMID: 25088204, DOI: 10.1038/onc.2014.236.Peer-Reviewed Original ResearchConceptsTumor cell migrationDNA methylationCell migrationTumor suppressorH19/letPotent tumor suppressorExpression of oncogenesDiverse human cancersMetastasis-promoting genesAnti-diabetic drug metforminLet-7C-MycHuman cancersH19Cell growthNovel mechanismEndometrial cancerPoor prognosisRegulationDrug metforminMethylationTherapeutic opportunitiesSuppressorTumor cellsOncogene
2013
Type I and II Endometrial Cancers: Have They Different Risk Factors?
Setiawan VW, Yang HP, Pike MC, McCann SE, Yu H, Xiang YB, Wolk A, Wentzensen N, Weiss NS, Webb PM, van den Brandt PA, van de Vijver K, Thompson PJ, Group T, Strom BL, Spurdle AB, Soslow RA, Shu XO, Schairer C, Sacerdote C, Rohan TE, Robien K, Risch HA, Ricceri F, Rebbeck TR, Rastogi R, Prescott J, Polidoro S, Park Y, Olson SH, Moysich KB, Miller AB, McCullough ML, Matsuno RK, Magliocco AM, Lurie G, Lu L, Lissowska J, Liang X, Lacey JV, Kolonel LN, Henderson BE, Hankinson SE, Håkansson N, Goodman MT, Gaudet MM, Garcia-Closas M, Friedenreich CM, Freudenheim JL, Doherty J, De Vivo I, Courneya KS, Cook LS, Chen C, Cerhan JR, Cai H, Brinton LA, Bernstein L, Anderson KE, Anton-Culver H, Schouten LJ, Horn-Ross PL. Type I and II Endometrial Cancers: Have They Different Risk Factors? Journal Of Clinical Oncology 2013, 31: 2607-2618. PMID: 23733771, PMCID: PMC3699726, DOI: 10.1200/jco.2012.48.2596.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAdultAge FactorsAgedBiopsy, NeedleCarcinoma, EndometrioidCase-Control StudiesCohort StudiesConfidence IntervalsContraceptives, OralDatabases, FactualDiabetes MellitusDisease-Free SurvivalEndometrial NeoplasmsFemaleHumansImmunohistochemistryMiddle AgedNeoplasm InvasivenessNeoplasm StagingObesityOdds RatioRisk FactorsSensitivity and SpecificitySmokingSurvival AnalysisConceptsType II tumorsII tumorsRisk factorsEndometrial cancerOdds ratioHigh-grade endometrioid tumorsEndometrial cancer risk factorsType IEndometrial Cancer ConsortiumEndometrial cancer typesType I tumorsEndometrial cancer casesOral contraceptive useRisk factor patternsBody mass indexCancer risk factorsCommon etiologic factorCase-control studyDifferent risk factorsEndometrioid tumorsI tumorsMass indexCigarette smokingPooled analysisEtiologic factors