2023
SOX9 Governs Gastric Mucous Neck Cell Identity and Is Required for Injury-Induced Metaplasia
Willet S, Thanintorn N, McNeill H, Huh S, Ornitz D, Huh W, Hoft S, DiPaolo R, Mills J. SOX9 Governs Gastric Mucous Neck Cell Identity and Is Required for Injury-Induced Metaplasia. Cellular And Molecular Gastroenterology And Hepatology 2023, 16: 325-339. PMID: 37270061, PMCID: PMC10444955, DOI: 10.1016/j.jcmgh.2023.05.009.Peer-Reviewed Original ResearchConceptsSRY-box transcription factor 9Cell identityAdult homeostasisGastric progenitorsMucous neck cellsZymogenic chief cellsGastric developmentNeck cellsPotential genesMaster regulatorExpression patternsGene expressionSPEM cellsCell differentiationCorpus unitsSOX9 expressionSOX9Factor 9Specific expansionHomeostasisMisexpressionSox9 deletionReprogrammingChief cellsGenetic deletion
2016
Hepatocyte nuclear factor 4α is required for cell differentiation and homeostasis in the adult mouse gastric epithelium
Moore BD, Khurana SS, Huh WJ, Mills JC. Hepatocyte nuclear factor 4α is required for cell differentiation and homeostasis in the adult mouse gastric epithelium. AJP Gastrointestinal And Liver Physiology 2016, 311: g267-g275. PMID: 27340127, PMCID: PMC5007292, DOI: 10.1152/ajpgi.00195.2016.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBasic Helix-Loop-Helix Transcription FactorsBinding SitesCell DifferentiationCell LineCell ProliferationEpithelial CellsGastric MucosaGene Expression RegulationGenotypeHepatocyte Nuclear Factor 4HomeostasisHumansMice, KnockoutPhenotypePromoter Regions, GeneticSignal TransductionTransfectionX-Box Binding Protein 1ConceptsZymogenic chief cellsAdult mouse stomachX-box binding protein 1Gastric unitsRole of HNF4αStem cell zoneHepatocyte nuclear factor 4 alphaLoss of HNF4αBinding protein 1Nuclear factor 4 alphaHepatocyte nuclear factor 4αHuman gastric cancer cellsMouse stomachTranscriptional regulatorsChromatin immunoprecipitationNuclear factor 4αGastric cancer cellsXBP1 mRNAHNF4α proteinTranscription factorsUpstream regulationMouse gastric epitheliumHuman gastric cellsCell differentiationAdditional phenotypes
2011
Tamoxifen Induces Rapid, Reversible Atrophy, and Metaplasia in Mouse Stomach
Huh WJ, Khurana SS, Geahlen JH, Kohli K, Waller RA, Mills JC. Tamoxifen Induces Rapid, Reversible Atrophy, and Metaplasia in Mouse Stomach. Gastroenterology 2011, 142: 21-24.e7. PMID: 22001866, PMCID: PMC3708546, DOI: 10.1053/j.gastro.2011.09.050.Peer-Reviewed Original ResearchMeSH KeywordsAdministration, OralAnimalsAtrophyChief Cells, GastricFemaleGene Expression RegulationInjections, IntraperitonealIntegrasesLac OperonMaleMetaplasiaMiceMice, Inbred BALB CMice, Inbred C57BLMice, TransgenicParietal Cells, GastricSelective Estrogen Receptor ModulatorsSpecies SpecificityTamoxifenTime FactorsConceptsSelective estrogen receptor modulatorsParietal cellsBody weight doseEstrogen receptor modulatorsTamoxifen side effectsAcid secretion inhibitionZymogenic chief cellsReversible atrophyWeight doseGastric toxicityIntraperitoneal administrationReceptor modulatorsNormal miceSide effectsSecretion inhibitionGastric parietal cellsChief cellsMouse stomachTamoxifenMetaplasiaMultiple strainsToxicityCellsPatientsAtrophy