2023
Suppression of angiopoietin-like 4 reprograms endothelial cell metabolism and inhibits angiogenesis
Chaube B, Citrin K, Sahraei M, Singh A, de Urturi D, Ding W, Pierce R, Raaisa R, Cardone R, Kibbey R, Fernández-Hernando C, Suárez Y. Suppression of angiopoietin-like 4 reprograms endothelial cell metabolism and inhibits angiogenesis. Nature Communications 2023, 14: 8251. PMID: 38086791, PMCID: PMC10716292, DOI: 10.1038/s41467-023-43900-0.Peer-Reviewed Original ResearchMicroRNA-1 protects the endothelium in acute lung injury
Korde A, Haslip M, Pednekar P, Khan A, Chioccioli M, Mehta S, Lopez-Giraldez F, Bermejo S, Rojas M, Dela Cruz C, Matthay M, Pober J, Pierce R, Takyar S. MicroRNA-1 protects the endothelium in acute lung injury. JCI Insight 2023, 8: e164816. PMID: 37737266, PMCID: PMC10561733, DOI: 10.1172/jci.insight.164816.Peer-Reviewed Original ResearchConceptsAcute respiratory distress syndromeAcute lung injuryVascular endothelial growth factorAngiopoietin-2Lung injuryAcute injuryMiR-1MicroRNA-1Endothelial cell-specific overexpressionSevere endothelial dysfunctionRespiratory distress syndromeSurvival of miceIntrinsic protective effectContext of injuryCell-specific overexpressionEndothelial growth factorFamily member 3Pneumonia cohortMiR-1 targetsEndothelial dysfunctionDistress syndromeBarrier dysfunctionCapillary leakProtective effectSevere form
2021
Pazopanib ameliorates acute lung injuries via inhibition of MAP3K2 and MAP3K3
Yuan Q, Basit A, Liang W, Qu R, Luan Y, Ren C, Li A, Xu X, Liu X, Yang C, Kuo A, Pierce R, Zhang L, Turk B, Hu X, Li F, Cui W, Li R, Huang D, Mo L, Sessa WC, Lee PJ, Kluger Y, Su B, Tang W, He J, Wu D. Pazopanib ameliorates acute lung injuries via inhibition of MAP3K2 and MAP3K3. Science Translational Medicine 2021, 13 PMID: 33910977, PMCID: PMC8466683, DOI: 10.1126/scitranslmed.abc2499.Peer-Reviewed Original ResearchConceptsAcute lung injuryLung injuryMyeloid cellsLung transplantation recipientsMouse ALI modelPulmonary barrier functionTransplantation recipientsALI modelReactive oxygen species formationPharmacological interventionsPazopanibOxygen species formationVasculature integrityEpithelial cell survivalHigh mortalityMitogen-activated protein kinase kinase kinase 2Barrier functionGenetic inactivationInjuryCell survivalMortalityProtein kinase kinase kinase 2MAP3K3Kinase 2Manifestations
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