Featured Publications
Long non-coding RNA ACTA2-AS1 promotes ductular reaction by interacting with the p300/ELK1 complex
Navarro-Corcuera A, Sehrawat T, Jalan-Sakrikar N, Gibbons H, Pirius N, Khanal S, Hamdan F, Aseem S, Cao S, Banales J, Kang N, Faubion W, LaRusso N, Shah V, Huebert R. Long non-coding RNA ACTA2-AS1 promotes ductular reaction by interacting with the p300/ELK1 complex. Journal Of Hepatology 2021, 76: 921-933. PMID: 34953958, PMCID: PMC8934273, DOI: 10.1016/j.jhep.2021.12.014.Peer-Reviewed Original ResearchConceptsBile duct ligationDuctular reactionACTA2-AS1KO miceBile duct cellsLPS exposureBiliary diseaseFibrogenic markersInjury modelDuct ligationFibrogenic genesLong non-coding RNAsFl/Cholangiocyte proliferationFibrosisHuman cholangiocytesSGC-CBP30Primary cholangiocytesAbstractTextLiver tissueLAY SUMMARYP300 inhibitorTranscription factorsCholangiocytesDuct cells
2024
Portal Fibrosis and the Ductular Reaction: Pathophysiological Role in the Progression of Liver Disease and Translational Opportunities
Gupta V, Sehrawat T, Pinzani M, Strazzabosco M. Portal Fibrosis and the Ductular Reaction: Pathophysiological Role in the Progression of Liver Disease and Translational Opportunities. Gastroenterology 2024 PMID: 39251168, DOI: 10.1053/j.gastro.2024.07.044.Peer-Reviewed Original ResearchLiver diseasePortal fibrosisDuctular reactionPathological repairProgression of liver diseaseCholestatic liver diseaseTranslational opportunitiesChronic liver diseaseProgression of fibrosisCell typesChronic human liver diseaseHuman liver diseaseTumor microenvironmentTherapeutic advancesImmune modulationHistological abnormalitiesVascular changesLiver repairPathophysiological roleFibrosisTreatment prospectsPortal spacesMesenchymal cellsVascular cellsComplex crosstalk