Featured Publications
Caveolae-mediated Tie2 signaling contributes to CCM pathogenesis in a brain endothelial cell-specific Pdcd10-deficient mouse model
Zhou HJ, Qin L, Jiang Q, Murray KN, Zhang H, Li B, Lin Q, Graham M, Liu X, Grutzendler J, Min W. Caveolae-mediated Tie2 signaling contributes to CCM pathogenesis in a brain endothelial cell-specific Pdcd10-deficient mouse model. Nature Communications 2021, 12: 504. PMID: 33495460, PMCID: PMC7835246, DOI: 10.1038/s41467-020-20774-0.Peer-Reviewed Original ResearchConceptsCerebral cavernous malformationsCCM lesionsSmooth muscle actin-positive pericytesEndothelial cell lossRegions of brainCCM pathogenesisPost-capillary venulesCerebral hemorrhagePharmacological blockadeVascular abnormalitiesEC-specific deletionCavernous malformationsMouse modelCell lossMicrovascular bedGenetic deletionLesion formationLesionsVascular dynamicsBarrier functionMicrovascular structureTwo-photon microscopyTie2PathogenesisMice
2019
Short AIP1 (ASK1-Interacting Protein-1) Isoform Localizes to the Mitochondria and Promotes Vascular Dysfunction
Li Z, Li L, Zhang H, Zhou HJ, Ji W, Min W. Short AIP1 (ASK1-Interacting Protein-1) Isoform Localizes to the Mitochondria and Promotes Vascular Dysfunction. Arteriosclerosis Thrombosis And Vascular Biology 2019, 40: 112-127. PMID: 31619063, PMCID: PMC7204498, DOI: 10.1161/atvbaha.119.312976.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAorta, ThoracicApoptosisArteriosclerosisBlotting, WesternCells, CulturedDisease Models, AnimalDNAEndothelium, VascularGene Expression RegulationGenome-Wide Association StudyHumansMiceMice, Inbred C57BLMice, TransgenicMicroscopy, FluorescenceMitochondriaRas GTPase-Activating ProteinsSignal TransductionConceptsN-terminal pleckstrin homology domainHuman genome-wide association studiesGenome-wide association studiesPleckstrin homology domainMitochondrial reactive oxygen species generationEndothelial cellsH3K9 trimethylationHomology domainReactive oxygen species productionOxygen species productionReactive oxygen speciesReactive oxygen species generationAssociation studiesRegulatory factorsEpigenetic inhibitionEC activationOxygen species generationDependent pathwayVascular endothelial cellsProteolytic degradationSpecies productionOxygen speciesVascular homeostasisMitochondriaSpecies generation
2013
Functional Analyses of TNFR2 in Physiological and Pathological Retina AngiogenesisTNFR2 Mediates Retinal Angiogenesis
Wan T, Xu Z, Zhou HJ, Zhang H, Luo Y, Li Y, Min W. Functional Analyses of TNFR2 in Physiological and Pathological Retina AngiogenesisTNFR2 Mediates Retinal Angiogenesis. Investigative Ophthalmology & Visual Science 2013, 54: 211-221. PMID: 23188724, PMCID: PMC3544528, DOI: 10.1167/iovs.12-10364.Peer-Reviewed Original ResearchMeSH KeywordsAngiopoietin-2AnimalsAnimals, NewbornCell SurvivalDisease Models, AnimalEndothelium, VascularEpithelial CellsGene ExpressionHumansHypoxiaInfant, NewbornMiceMice, Inbred C57BLMice, KnockoutMice, TransgenicNeovascularization, PathologicNF-kappa BOxygenProtein-Tyrosine KinasesReceptor, TIE-2Receptors, Tumor Necrosis Factor, Type IIRetinaRetinal NeovascularizationRetinopathy of PrematurityVascular Endothelial Growth Factor Receptor-2ConceptsTumor necrosis factor receptor 2Wild-type C57BL/6 miceTNFR2 deletionTNFR2-KOOIR modelOxygen-induced retinopathy modelNecrosis factor receptor 2Pathological neovascular tuftsRetinal vascular repairVascular ECsRetinal vascular developmentIschemia-induced revascularizationRetinal vasculature developmentFactor receptor 2Vascular endothelial cellsPreretinal neovascularizationVascular developmentC57BL/6 miceNeovascular tuftsKO miceNeonatal miceIsolectin stainingVascular repairBone marrow kinasePostnatal day
2010
Chapter 19 Thioredoxin and Redox Signaling in Vasculature—Studies Using Trx2 Endothelium-Specific Transgenic Mice
Min W, Xu L, Zhou H, Huang Q, Zhang H, He Y, Zhe X, Luo Y. Chapter 19 Thioredoxin and Redox Signaling in Vasculature—Studies Using Trx2 Endothelium-Specific Transgenic Mice. Methods In Enzymology 2010, 474: 315-324. PMID: 20609919, DOI: 10.1016/s0076-6879(10)74019-2.Peer-Reviewed Original ResearchConceptsReactive oxygen speciesCellular reactive oxygen speciesMitochondrial antioxidant systemVivo functional assaysTRX2 geneRedox signalingTransgenic miceRedox genesThioredoxin 2Functional analysisHuman diseasesFunctional assaysAntioxidant systemOxygen speciesGenesCritical roleEndothelial cell culturesCell culturesPrimary lineTrx2TransgenesisThioredoxinMitochondriaSignalingSpecies