2022
Traffic Patterns of the Migrating Endothelium: How Force Transmission Regulates Vascular Malformation and Functional Shunting During Angiogenic Remodelling
Edgar LT, Park H, Crawshaw JR, Osborne JM, Eichmann A, Bernabeu MO. Traffic Patterns of the Migrating Endothelium: How Force Transmission Regulates Vascular Malformation and Functional Shunting During Angiogenic Remodelling. Frontiers In Cell And Developmental Biology 2022, 10: 840066. PMID: 35663401, PMCID: PMC9160721, DOI: 10.3389/fcell.2022.840066.Peer-Reviewed Original ResearchCell polarityCell-cell adherens junctionsAngiogenic remodellingEndothelial cellsAggregation of cellsMixed populationRearrangement of cellsVascular patterningAdherens junctionsForce transmissionALK1 receptorCell migrationAbnormal remodellingNew targetsEC dynamicsCellsMouse retinaRemodellingMigrationPolarityPopulationMutations
2021
Cardiac allograft vasculopathy: current review and future research directions
Pober JS, Chih S, Kobashigawa J, Madsen JC, Tellides G. Cardiac allograft vasculopathy: current review and future research directions. Cardiovascular Research 2021, 117: 2624-2638. PMID: 34343276, PMCID: PMC8783389, DOI: 10.1093/cvr/cvab259.Peer-Reviewed Original ResearchConceptsCardiac allograft vasculopathyAllograft vasculopathyImmune-mediated vasculopathyLate graft lossGraft lossCardiac transplantationOrgan graftsTransplanted heartsCurrent therapiesVascular remodellingVasculopathyMajor causeCurrent reviewRemodellingTransplantationPathogenesisGraftTherapyPerfusionIncidenceDiagnosisVasculatureExcessive adventitial stress drives inflammation-mediated fibrosis in hypertensive aortic remodelling in mice
Spronck B, Latorre M, Wang M, Mehta S, Caulk AW, Ren P, Ramachandra AB, Murtada SI, Rojas A, He CS, Jiang B, Bersi MR, Tellides G, Humphrey JD. Excessive adventitial stress drives inflammation-mediated fibrosis in hypertensive aortic remodelling in mice. Journal Of The Royal Society Interface 2021, 18: 20210336. PMID: 34314650, PMCID: PMC8315831, DOI: 10.1098/rsif.2021.0336.Peer-Reviewed Original ResearchConceptsAortic remodellingWall stressAngiotensin II infusionInflammatory cell infiltrationC57BL/6 J miceSmooth muscle contractile processHigh wall stressVasoconstrictive capacityII infusionBlood pressureInflammatory cellsCell infiltrationMean wall stressJ miceThoracic aortaMaladaptive remodellingImmune processesAortaBulk RNA sequencingBiomechanical assessmentAdaptive remodellingContractile processMarked increaseRemodellingVasoconstriction
2016
Interaction between integrin α5 and PDE4D regulates endothelial inflammatory signalling
Yun S, Budatha M, Dahlman JE, Coon BG, Cameron RT, Langer R, Anderson DG, Baillie G, Schwartz MA. Interaction between integrin α5 and PDE4D regulates endothelial inflammatory signalling. Nature Cell Biology 2016, 18: 1043-1053. PMID: 27595237, PMCID: PMC5301150, DOI: 10.1038/ncb3405.Peer-Reviewed Original ResearchConceptsInflammatory signalingIntegrin α5Enhanced phosphodiesterase activityExtracellular matrix remodellingModulates inflammationTherapeutic targetInflammationProstacyclin secretionLipid metabolismEndothelial cellsMatrix remodellingVivo knockdownECM remodellingBasement membraneIntegrin α2Phosphodiesterase activityMolecular mechanismsRemodellingΑ5Direct bindingSignalingCellsFibronectinAtherosclerosisArtery
2015
Complement C1q-induced activation of β-catenin signalling causes hypertensive arterial remodelling
Sumida T, Naito AT, Nomura S, Nakagawa A, Higo T, Hashimoto A, Okada K, Sakai T, Ito M, Yamaguchi T, Oka T, Akazawa H, Lee JK, Minamino T, Offermanns S, Noda T, Botto M, Kobayashi Y, Morita H, Manabe I, Nagai T, Shiojima I, Komuro I. Complement C1q-induced activation of β-catenin signalling causes hypertensive arterial remodelling. Nature Communications 2015, 6: 6241. PMID: 25716000, PMCID: PMC4351572, DOI: 10.1038/ncomms7241.Peer-Reviewed Original ResearchConceptsVascular smooth muscle cellsProliferation of VSMCsArterial remodellingΒ-catenin signalingΒ-cateninComplement C1qBlood pressure elevationEnd-organ damageNovel therapeutic targetSmooth muscle cellsMacrophage depletionImmune cellsPrecise molecular mechanismsTherapeutic targetStructural remodellingMuscle cellsRemodellingHypertensionArteriosclerosisComplement C1ActivationC1qMolecular mechanismsSignalingGene deletion
2012
Functional analysis of erythrocyte determinants of Plasmodium infection
Bei AK, Duraisingh MT. Functional analysis of erythrocyte determinants of Plasmodium infection. International Journal For Parasitology 2012, 42: 575-582. PMID: 22726752, PMCID: PMC3383627, DOI: 10.1016/j.ijpara.2012.03.006.Peer-Reviewed Original ResearchConceptsFunctional analysisErythrocyte determinantsObligate intracellular pathogensPlasmodium infectionTransgenic approachesHuman erythrocytes resultsNatural variationErythrocyte invasionIntracellular pathogensPlasmodium falciparum parasitesUnexplored frontierClinical manifestationsMalaria researchErythrocytes resultsFalciparum parasitesInvasionMalarial diseaseChemical biologicalInfectionErythrocytesParasitesPathogensDeterminantsRemodellingDiscovery
1987
Nodal spacing along regenerated axons following a crush lesion of the developing rat sciatic nerve
Hildebrand C, Mustafa G, Bowe C, Kocsis J. Nodal spacing along regenerated axons following a crush lesion of the developing rat sciatic nerve. Brain Research 1987, 32: 147-154. DOI: 10.1016/0165-3806(87)90148-9.Peer-Reviewed Original ResearchNodal spacing along regenerated axons following a crush lesion of the developing rat sciatic nerve.
Hildebrand C, Mustafa G, Bowe C, Kocsis J. Nodal spacing along regenerated axons following a crush lesion of the developing rat sciatic nerve. Brain Research 1987, 429: 147-54. PMID: 3567658, DOI: 10.1016/0165-3806(87)90148-9.Peer-Reviewed Original ResearchConceptsRat sciatic nerveSciatic nerveRegenerated nervesCrush lesionRegenerated rat sciatic nerveNewborn rat pupsSciatic nerve axonsPostnatal ageRegenerated axonsPostnatal eventsRat pupsNerveNerve axonsMyelin sheathL increaseAxonsWeeksBirthAgeLesionsMyelinationSignsRemodellingSuch signsLength growthChapter 8 Ionic channel organization of normal and regenerating mammalian axons
Kocsis J, Waxman S. Chapter 8 Ionic channel organization of normal and regenerating mammalian axons. Progress In Brain Research 1987, 71: 89-101. PMID: 2438722, DOI: 10.1016/s0079-6123(08)61816-6.Peer-Reviewed Original ResearchConceptsNerve fibersPeripheral nervesRegenerated nerve fibersCell remodellingNormal developmentMammalian nerve fibresSchwann cellsElectrophysiological characteristicsFine caliberMyelinated axonsImmature axonsAxonal growthMammalian axonsNerveNormal maturationRemodelling occursAxonsCell arrestRemodellingTime courseMyelinIonic channelsLong termMaturationTime of maturation
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