2023
Single-cell atlas of the human neonatal small intestine affected by necrotizing enterocolitis
Egozi A, Olaloye O, Werner L, Silva T, McCourt B, Pierce R, An X, Wang F, Chen K, Pober J, Shouval D, Itzkovitz S, Konnikova L. Single-cell atlas of the human neonatal small intestine affected by necrotizing enterocolitis. PLOS Biology 2023, 21: e3002124. PMID: 37205711, PMCID: PMC10234541, DOI: 10.1371/journal.pbio.3002124.Peer-Reviewed Original ResearchConceptsSingle-cell RNA sequencingSingle-cell atlasEpithelial cellsCell identityRNA sequencingBulk transcriptomicsCellular dysregulationAberrant interactionsNeonatal small intestinePotential targetCellular changesBiomarker discoveryGastrointestinal complicationsPremature infantsProinflammatory macrophagesProinflammatory genesClonal expansionT cellsEndothelial cellsImmune interactionsIntestinal tissueCellsSmall intestineComprehensive viewNEC
2021
Integrated Single-Cell Atlas of Endothelial Cells of the Human Lung
Schupp JC, Adams TS, Cosme C, Raredon MSB, Yuan Y, Omote N, Poli S, Chioccioli M, Rose KA, Manning EP, Sauler M, DeIuliis G, Ahangari F, Neumark N, Habermann AC, Gutierrez AJ, Bui LT, Lafyatis R, Pierce RW, Meyer KB, Nawijn MC, Teichmann SA, Banovich NE, Kropski JA, Niklason LE, Pe’er D, Yan X, Homer RJ, Rosas IO, Kaminski N. Integrated Single-Cell Atlas of Endothelial Cells of the Human Lung. Circulation 2021, 144: 286-302. PMID: 34030460, PMCID: PMC8300155, DOI: 10.1161/circulationaha.120.052318.Peer-Reviewed Original ResearchConceptsDifferential expression analysisPrimary lung endothelial cellsLung endothelial cellsCell typesMarker genesExpression analysisSingle-cell RNA sequencing dataCross-species analysisVenous endothelial cellsEndothelial marker genesSingle-cell atlasMarker gene setsRNA sequencing dataEndothelial cellsSubsequent differential expression analysisDifferent lung cell typesResident cell typesLung cell typesCellular diversityEndothelial cell typesCapillary endothelial cellsHuman lung endothelial cellsPhenotypic diversityEndothelial diversityIndistinguishable populationsTumor necrosis factor‐induced ArhGEF10 selectively activates RhoB contributing to human microvascular endothelial cell tight junction disruption
Khan A, Ni W, Lopez‐Giraldez F, Kluger MS, Pober JS, Pierce RW. Tumor necrosis factor‐induced ArhGEF10 selectively activates RhoB contributing to human microvascular endothelial cell tight junction disruption. The FASEB Journal 2021, 35: e21627. PMID: 33948992, PMCID: PMC9026622, DOI: 10.1096/fj.202002783rr.Peer-Reviewed Original ResearchConceptsCapillary endothelial cellsHuman dermal microvascular endothelial cellsMicrovascular endothelial cellsEndothelial cellsTight junctionsCultured human microvascular endothelial cellsEC tight junctionsLoss of barrierCapillary leak syndromeCapillary barrier functionDermal microvascular endothelial cellsRhoB activationTight junction disruptionDisrupts tight junctionsHuman microvascular endothelial cellsExtent of TNFHuman capillary endothelial cellsLeak syndromeOverwhelming inflammationCapillary leakBarrier lossTJ disruptionJunction disruptionRhoB knockdownTNF
2020
BMX Represses Thrombin-PAR1–Mediated Endothelial Permeability and Vascular Leakage During Early Sepsis
Li Z, Yin M, Zhang H, Ni W, Pierce R, Zhou HJ, Min W. BMX Represses Thrombin-PAR1–Mediated Endothelial Permeability and Vascular Leakage During Early Sepsis. Circulation Research 2020, 126: 471-485. PMID: 31910739, PMCID: PMC7035171, DOI: 10.1161/circresaha.119.315769.Peer-Reviewed Original ResearchConceptsPAR1 internalizationPuncture-induced sepsisCecal ligationVascular leakageEndothelial permeabilityExpression of BmxThrombin-PAR1Early sepsisEndothelial cellsPuncture modelSignal inactivationPAR1 antagonist SCH79797Negative regulatorLung epithelial cellsTransendothelial electrical resistanceAdult stageEmbryonic stagesCultured endothelial cellsPulmonary leakageCellular analysisLung injuryPathological stimuliEndothelium dysfunctionPlatelet dysfunctionSepsis
2018
Sera From Children After Cardiopulmonary Bypass Reduces Permeability of Capillary Endothelial Cell Barriers
Pierce RW, Zahr RA, Kandil S, Faustino EVS, Pober JS. Sera From Children After Cardiopulmonary Bypass Reduces Permeability of Capillary Endothelial Cell Barriers. Pediatric Critical Care Medicine 2018, 19: 609-618. PMID: 29652749, PMCID: PMC6037548, DOI: 10.1097/pcc.0000000000001553.Peer-Reviewed Original ResearchConceptsTransendothelial electrical resistanceCardiopulmonary bypassCapillary endothelial cellsEndothelial cellsCapillary leakPatient seraClaudin-5Pulmonary capillary endothelial cellsBarrier functionPulmonary microvascular endothelial cellsReal-time quantitative reverse transcription polymerase chain reactionTertiary pediatric hospitalQuantitative reverse transcription polymerase chain reactionCardiopulmonary bypass circuitCongenital heart diseaseReverse transcription-polymerase chain reactionTranscription-polymerase chain reactionMicrovascular endothelial cellsEndothelial cell barrierCohort studyInflammatory mediatorsPediatric hospitalUnclear etiologyBarrier disruptionHeart disease
2017
A p190BRhoGAP mutation and prolonged RhoB activation in fatal systemic capillary leak syndrome
Pierce RW, Merola J, Lavik JP, Kluger MS, Huttner A, Khokha MK, Pober JS. A p190BRhoGAP mutation and prolonged RhoB activation in fatal systemic capillary leak syndrome. Journal Of Experimental Medicine 2017, 214: 3497-3505. PMID: 29097442, PMCID: PMC5716031, DOI: 10.1084/jem.20162143.Peer-Reviewed Original ResearchConceptsTumor necrosis factorSystemic capillary leakDermal microvascular endothelial cellsMicrovascular endothelial cellsPatient-derived endothelial cellsEndothelial cellsCapillary leakNormal human dermal microvascular endothelial cellsSystemic capillary leak syndromeBarrier functionCapillary leak syndromeHuman dermal microvascular endothelial cellsTransendothelial electrical resistanceEC barrier functionNormal endothelial cellsLeak syndromeCritical illnessFatal casesNecrosis factorBarrier recoverySiRNA knockdownEC culturesRhoB activationGreater increaseJunctional proteinsEndothelial Cell Function and Dysfunction in Critically Ill Children
Pierce RW, Giuliano JS, Pober JS. Endothelial Cell Function and Dysfunction in Critically Ill Children. Pediatrics 2017, 140: e20170355. PMID: 28759412, PMCID: PMC9923607, DOI: 10.1542/peds.2017-0355.Peer-Reviewed Original ResearchConceptsEndothelial cellsCritical illnessIll childrenCritically Ill ChildrenImmune cell recruitmentBiology of ECsEndothelial cell functionBroad anatomic distributionEntire vascular systemPathologic responseAnatomic distributionClinical correlationMaintenance of homeostasisBlood flowCell recruitmentBlood fluiditySystemic homeostasisCell functionSegmental differencesEC functionVascular systemIllnessChildrenHomeostasisSpecific role
2016
IL-17 Promotes Neutrophil-Mediated Immunity by Activating Microvascular Pericytes and Not Endothelium
Liu R, Lauridsen HM, Amezquita RA, Pierce RW, Jane-Wit D, Fang C, Pellowe AS, Kirkiles-Smith NC, Gonzalez AL, Pober JS. IL-17 Promotes Neutrophil-Mediated Immunity by Activating Microvascular Pericytes and Not Endothelium. The Journal Of Immunology 2016, 197: 2400-2408. PMID: 27534549, PMCID: PMC5010945, DOI: 10.4049/jimmunol.1600138.Peer-Reviewed Original ResearchMeSH KeywordsCaspase 9Cells, CulturedCulture MediaCytokinesEndothelium, VascularGranulocyte Colony-Stimulating FactorGranulocyte-Macrophage Colony-Stimulating FactorHumansInterleukin-17Neutrophil InfiltrationNeutrophilsPericytesReceptors, Interleukin-17Sequence Analysis, RNATumor Necrosis Factor-alphaVenulesConceptsIL-17Endothelial cellsIL-17RAIL-17RC subunitsCultured human endothelial cellsInflammatory gene expressionMicrovascular endothelial cellsNeutrophil-mediated immunityNeutrophil infiltrationNeutrophilic inflammationHuman endothelial cellsAcute inflammationIL-1βNeutrophil functionProinflammatory cytokinesIL-8Proinflammatory moleculesIL-1αIL-17RCIL-1Human pericytesG-CSFMicrovascular pericytesNeutrophil productionNeutrophil survival