2019
Reduction in SNAP-23 Alters Microfilament Organization in Myofibrobastic Hepatic Stellate Cells.
Eubanks HB, Lavoie EG, Goree J, Kamykowski JA, Gokden N, Fausther M, Dranoff JA. Reduction in SNAP-23 Alters Microfilament Organization in Myofibrobastic Hepatic Stellate Cells. Gene Expression 2019, 20: 25-37. PMID: 31757226, PMCID: PMC7284106, DOI: 10.3727/105221619x15742818049365.Peer-Reviewed Original ResearchMeSH KeywordsActin CytoskeletonActin Depolymerizing FactorsActinsAnimalsCarbon TetrachlorideCell LineCell MovementCell SeparationGene Knockdown TechniquesHepatic Stellate CellsHumansLiverLiver CirrhosisMiceMyofibroblastsQb-SNARE ProteinsQc-SNARE ProteinsRho-Associated KinasesRNA InterferenceRNA, Small InterferingSignal TransductionStress FibersWound HealingConceptsSNAP-23T-SNARE proteinsSpecific SNARE proteinsMyofibroblastic hepatic stellate cellsSNARE proteinsActin cytoskeletonActin dynamicsHepatic stellate cellsCytoskeletal reorganizationCell movementPlasma membraneHomologous proteinsExtracellular environmentMicrofilament organizationSNAP-25HSC phenotypeReceptor proteinProteinStellate cellsQuiescent hepatic stellate cellsPhenotypeCellsCritical effector cellsCytoskeletonVivo
2014
Pathological Changes in Pulmonary Circulation in Carbon Tetrachloride (ccl4)-Induced Cirrhotic Mice
Das M, Boerma M, Goree JR, Lavoie EG, Fausther M, Gubrij IB, Pangle AK, Johnson LG, Dranoff JA. Pathological Changes in Pulmonary Circulation in Carbon Tetrachloride (ccl4)-Induced Cirrhotic Mice. PLOS ONE 2014, 9: e96043. PMID: 24763616, PMCID: PMC3999097, DOI: 10.1371/journal.pone.0096043.Peer-Reviewed Original ResearchConceptsPulmonary acceleration timeCirrhotic micePortopulmonary hypertensionPulmonary circulationPathological changesSpleen weight/body weight ratioVentricle weight/body weightWeight/body weight ratioChronic CCl4 treatmentPulmonary vascular diseaseMale C57BL/6 miceBody weight ratioTimes/weekOxidative stress markersNovel therapeutic interventionsPicrosirius red stainingSterile olive oilPortal hypertensionEffects of CCl4Pulmonary arteryC57BL/6 micePathophysiological mechanismsPulmonary vasculaturePerivascular collagenVascular disease