2022
The microRNA-3622 family at the 8p21 locus exerts oncogenic effects by regulating the p53-downstream gene network in prostate cancer progression
Zhang Y, Xu Z, Wen W, Liu Z, Zhang C, Li M, Hu F, Wei S, Bae S, Zhou J, Liu R, Wang L. The microRNA-3622 family at the 8p21 locus exerts oncogenic effects by regulating the p53-downstream gene network in prostate cancer progression. Oncogene 2022, 41: 3186-3196. PMID: 35501464, PMCID: PMC9177620, DOI: 10.1038/s41388-022-02289-8.Peer-Reviewed Original ResearchConceptsGene networksHuman prostate cancerDual-luciferase assayRepression of p53 signalingInvasion of human prostate cancer cellsOncogenic functionHuman prostate cancer cellsOncogenic effectsCell proliferationHuman prostate cancer cell linesProstate cancer cell linesCRISPR interferenceControl apoptosisCancer cell linesProstate cancer cellsTumor progressionInvasion in vitroP53 signalingUpregulation of vimentinMetastasis in vivoHuman prostate cancer tissuesCell cycleImmunoprecipitation assaysC-MycCell migration
2021
Targeting STAT3 prevents bile reflux‐induced oncogenic molecular events linked to hypopharyngeal carcinogenesis
Vageli DP, Doukas PG, Siametis A, Judson BL. Targeting STAT3 prevents bile reflux‐induced oncogenic molecular events linked to hypopharyngeal carcinogenesis. Journal Of Cellular And Molecular Medicine 2021, 26: 75-87. PMID: 34850540, PMCID: PMC8742186, DOI: 10.1111/jcmm.17011.Peer-Reviewed Original ResearchConceptsBcl-2 overexpressionTranscriptional activationTranscription factorsTranscriptional activitySignal transducerSTAT3 knockdownMolecular eventsCell survivalQPCR analysisLuciferase assaySTAT3 activationTargeting STAT3Oncogenic eventsAberrant activationHypopharyngeal carcinogenesisSTAT3 phosphorylationSTAT3Oncogenic effectsSTAT3 pathwayPharmacologic inhibitionPharmacological inhibitionSTA-21Hypopharyngeal cellsOncogenic profileWestern blot
2019
Molecular Pathogenesis: From Inflammation and Cholestasis to a Microenvironment-Driven Tumor
Milani E, Strazzabosco M, Fabris L, Cadamuro M. Molecular Pathogenesis: From Inflammation and Cholestasis to a Microenvironment-Driven Tumor. 2019, 167-182. DOI: 10.1007/978-3-030-22258-1_12.Peer-Reviewed Original ResearchTumor reactive stromaIntrahepatic cholangiocarcinomaReactive stromaTumor-infiltrating lymphocytesPrimary liver cancerTumor-associated macrophagesCancer-associated fibroblastsMalignant bile ductPro-invasive functionMain stromal cell typesBiliary lesionsProgenitor stem cellsBile ductChronic inflammationStromal cell typesPortal tractsTumor overgrowthLiver cancerPathogenetic sequenceMalignant transformationParacrine factorsTumor microenvironmentCholestasisOncogenic effectsInflammation
2012
Integrating Gene and Mir Expression Profiles and Regulatory Network Structures to Define Aberrent Feed Forward Loops with Functional and Clinical Implications in Myeloma.
Fulciniti M, Li Y, Wang X, Samur M, Yan Z, Amin S, Li C, Anderson K, Munshi N. Integrating Gene and Mir Expression Profiles and Regulatory Network Structures to Define Aberrent Feed Forward Loops with Functional and Clinical Implications in Myeloma. Blood 2012, 120: 2386. DOI: 10.1182/blood.v120.21.2386.2386.Peer-Reviewed Original ResearchFeed-forward loopRegulatory network structureGene/sGene expressionExpression profilesMiR expression profilesGene expression profile analysisNormal plasma cellsLarge regulatory networkExpression profile analysisOncogenic effectsExpression profile dataMaster TFsNegative feedback regulationRegulatory networksOncogenomic analysisDifferential genesRegulatory loopMolecular impactHeterogeneous genetic backgroundMiRNA expressionFeedback regulationMiR profilesGenetic backgroundMalignant phenotype
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply