2024
Chapter 13 Liver Sinusoidal Cells in alcohol-associated liver disease
Iwakiri Y. Chapter 13 Liver Sinusoidal Cells in alcohol-associated liver disease. 2024, 285-291. DOI: 10.1016/b978-0-323-95262-0.00013-9.Peer-Reviewed Original ResearchAlcohol-associated liver diseaseLiver sinusoidal endothelial cellsPathogenesis of alcohol-associated liver diseaseChronic alcohol consumptionSinusoidal endothelial cellsLiver diseaseNormal function of immune cellsEndothelial cellsFunction of immune cellsSinusoidal cellsAlcohol consumptionIntrahepatic vascular toneHepatic stellate cellsEndothelial cell populationLiver sinusoidal cellsLiver cell typesImmune cellsAntigen clearanceVascular toneKupffer cells/macrophagesKupffer cellsStellate cellsCell populationsLiver homeostasisLiver
2021
Portal hypertension in cirrhosis: Pathophysiological mechanisms and therapy
Iwakiri Y, Trebicka J. Portal hypertension in cirrhosis: Pathophysiological mechanisms and therapy. JHEP Reports 2021, 3: 100316. PMID: 34337369, PMCID: PMC8318926, DOI: 10.1016/j.jhepr.2021.100316.Peer-Reviewed Original ResearchLiver sinusoidal endothelial cellsHepatic stellate cellsPortal hypertensionChronic liver diseaseIntrahepatic vascular resistanceSinusoidal endothelial cellsExtrahepatic vasculatureVascular resistanceMicrovascular thrombosisHaemodynamic changesLiver diseasePathophysiological mechanismsPortal veinHypertensionPreclinical studiesEffective treatmentStellate cellsPathogenic complexityExtrahepatic mechanismsClinical advancesEffective therapeuticsUnsuccessful translationEndothelial cellsCirrhosisDysregulation
2016
Cellular distribution of injected PLGA-nanoparticles in the liver
Park JK, Utsumi T, Seo YE, Deng Y, Satoh A, Saltzman WM, Iwakiri Y. Cellular distribution of injected PLGA-nanoparticles in the liver. Nanomedicine Nanotechnology Biology And Medicine 2016, 12: 1365-1374. PMID: 26961463, PMCID: PMC4889500, DOI: 10.1016/j.nano.2016.01.013.Peer-Reviewed Original ResearchConceptsPLGA nanoparticlesSafety of nanoparticlesUptake of nanoparticlesNanoparticle deliveryLiver sinusoidal endothelial cellsNanoparticle retentionNanoparticlesHepatic stellate cellsSinusoidal endothelial cellsKupffer cellsStellate cellsEndothelial cellsTarget cell typeCell typesClodronate liposomesLiver therapyLiver cellsMajor cellsLiverCell populationsCellular distributionLiposomesCellsHepatocytes
2014
Vascular pathobiology in chronic liver disease and cirrhosis – Current status and future directions
Iwakiri Y, Shah V, Rockey DC. Vascular pathobiology in chronic liver disease and cirrhosis – Current status and future directions. Journal Of Hepatology 2014, 61: 912-924. PMID: 24911462, PMCID: PMC4346093, DOI: 10.1016/j.jhep.2014.05.047.BooksConceptsChronic liver diseasePortal hypertensionLiver diseaseLiver fibrosis/cirrhosisVascular cellsMesenteric vascular circulationFibrosis/cirrhosisDynamic vascular changesCollateral vessel formationHepatic stellate cellsSinusoidal endothelial cellsGrowth factor pathwaysGrowth factor βExtrahepatic circulationExtrahepatic vasculatureArterial vasodilationLiver injuryVascular changesVasoactive peptidesHypertensionVascular pathobiologySystemic circulationStellate cellsVascular processesLiver vasculature
2013
Reticulon 4B (Nogo‐B) facilitates hepatocyte proliferation and liver regeneration in mice
Gao L, Utsumi T, Tashiro K, Liu B, Zhang D, Swenson ES, Iwakiri Y. Reticulon 4B (Nogo‐B) facilitates hepatocyte proliferation and liver regeneration in mice. Hepatology 2013, 57: 1992-2003. PMID: 23299899, PMCID: PMC3628958, DOI: 10.1002/hep.26235.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell ProliferationEpidermal Growth FactorHepatectomyHepatocyte Growth FactorHepatocytesInterleukin-6LiverLiver RegenerationMaleMiceMice, Inbred C57BLMice, KnockoutModels, AnimalMyelin ProteinsNogo ProteinsSignal TransductionSTAT3 Transcription FactorTime FactorsTransforming Growth Factor betaConceptsHepatocyte growth factorRole of NogoInterleukin-6Hepatocyte proliferationLiver regenerationEpidermal growth factorReticulon 4BTGF-β1Growth factorKi67 labeling indexB knockout miceHepatic stellate cellsReal-time polymerase chain reactionQuantitative real-time polymerase chain reactionIL-6/signal transducerGrowth factor βTime-dependent mannerRemnant liverKO miceLiver fibrosisPolymerase chain reactionInhibitor of DNAStellate cellsKnockout miceLabeling indexAbsence of Nogo-B (Reticulon 4B) Facilitates Hepatic Stellate Cell Apoptosis and Diminishes Hepatic Fibrosis in Mice
Tashiro K, Satoh A, Utsumi T, Chung C, Iwakiri Y. Absence of Nogo-B (Reticulon 4B) Facilitates Hepatic Stellate Cell Apoptosis and Diminishes Hepatic Fibrosis in Mice. American Journal Of Pathology 2013, 182: 786-795. PMID: 23313137, PMCID: PMC3586693, DOI: 10.1016/j.ajpath.2012.11.032.Peer-Reviewed Original ResearchConceptsHepatic stellate cell apoptosisMF-HSCsStellate cell apoptosisHepatic fibrosisKO miceCell apoptosisHuman hepatic stellate cellsRole of NogoCarbon tetrachloride inhalationCaspase-3B knockout miceHepatic stellate cellsPotential therapeutic strategyApoptosis of HSCsWT miceFibrotic areasLiver fibrosisSelective blockadeExperimental cirrhosisLX2 cellsCirrhotic liverStellate cellsTherapeutic strategiesKnockout miceFibrosis
2011
Reticulon 4B (Nogo‐B) is a novel regulator of hepatic fibrosis
Zhang D, Utsumi T, Huang H, Gao L, Sangwung P, Chung C, Shibao K, Okamoto K, Yamaguchi K, Groszmann RJ, Jozsef L, Hao Z, Sessa WC, Iwakiri Y. Reticulon 4B (Nogo‐B) is a novel regulator of hepatic fibrosis. Hepatology 2011, 53: 1306-1315. PMID: 21480333, PMCID: PMC3667398, DOI: 10.1002/hep.24200.Peer-Reviewed Original ResearchConceptsBile duct ligationLiver fibrosisPortal pressureKO micePortal hypertensionReticulon 4BWT mice 4 weeksMice 4 weeksFibrosis/cirrhosisSham-operated controlsB knockout miceHepatic stellate cellsPotential therapeutic targetHuman liver sectionsAbsence of NogoGrowth factor β stimulationMechanism of NogoTGFβ/SMAD2WT miceVascular injuryHepatic fibrosisSham operationCirrhotic liverDuct ligationStellate cells