2012
Fluorescent transgenic reporter mice can be used for in vivo Imaging of lymphatic vessels and high endothelial venules in a Sjögren’s model (61.7)
Ruddle N, Truman L, Bentley K, Alonso-Gonzalez N. Fluorescent transgenic reporter mice can be used for in vivo Imaging of lymphatic vessels and high endothelial venules in a Sjögren’s model (61.7). The Journal Of Immunology 2012, 188: 61.7-61.7. DOI: 10.4049/jimmunol.188.supp.61.7.Peer-Reviewed Original ResearchTertiary lymphoid organsLymphocyte infiltrationSjögren's syndromeLymphatic vesselsReporter miceTransgenic miceB cell compartmentalizationSalivary glandsExtra-nodal lymphomaHigh endothelial venulesMinor salivary glandsEGFP reporter miceTransgenic reporter miceAntigen primingSjögren's patientsVascular changesAutoantibody productionBL/6 miceAutoimmune diseasesLymphoid organsSpontaneous lymphomasEndothelial venulesGerminal centersLymph flowImmature phenotype
2010
Prevention of Diabetes by FTY720-Mediated Stabilization of Peri-Islet Tertiary Lymphoid Organs
Penaranda C, Tang Q, Ruddle NH, Bluestone JA. Prevention of Diabetes by FTY720-Mediated Stabilization of Peri-Islet Tertiary Lymphoid Organs. Diabetes 2010, 59: 1461-1468. PMID: 20299465, PMCID: PMC2874707, DOI: 10.2337/db09-1129.Peer-Reviewed Original ResearchConceptsTertiary lymphoid organsPancreatic lymph nodesNOD miceLymph nodesDiabetes developmentDiabetic miceLymphoid organsSpontaneous type 1 diabetesB cell compartmentalizationExit of lymphocytesNonobese diabetic (NOD) miceAge-matched miceDevelopment of diabetesPrevention of diabetesNaive T cellsType 1 diabetesB cell compartmentWeeks of ageSignificant insulitisIslet destructionTreatment withdrawalAutoimmune destructionClinical scoresAccelerated diseaseDisease progression
2005
Lymphotoxin Plays a Crucial Role in the Development and Function of Nasal-Associated Lymphoid Tissue through Regulation of Chemokines and Peripheral Node Addressin
Ying X, Chan K, Shenoy P, Hill M, Ruddle NH. Lymphotoxin Plays a Crucial Role in the Development and Function of Nasal-Associated Lymphoid Tissue through Regulation of Chemokines and Peripheral Node Addressin. American Journal Of Pathology 2005, 166: 135-146. PMID: 15632007, PMCID: PMC1602284, DOI: 10.1016/s0002-9440(10)62239-0.Peer-Reviewed Original ResearchConceptsHigh endothelial venulesLymphoid chemokinesIntranasal immunizationNasal-Associated Lymphoid TissueB cell compartmentalizationB cell zonesCervical lymph nodesSerum IgG titersLower cytokine levelsExpression of lymphotoxinImmediate postnatal periodRole of cytokinesRegulation of chemokinesWild-type miceGlyCAM-1Peripheral node addressinLymphoid tissue developmentNALT developmentSplenic cytokinesVaginal IgACytokine levelsLymph nodesIgG titersVascular addressinsLymphoid tissue
2003
Ectopic LTαβ Directs Lymphoid Organ Neogenesis with Concomitant Expression of Peripheral Node Addressin and a HEV-restricted Sulfotransferase
Drayton DL, Ying X, Lee J, Lesslauer W, Ruddle NH. Ectopic LTαβ Directs Lymphoid Organ Neogenesis with Concomitant Expression of Peripheral Node Addressin and a HEV-restricted Sulfotransferase. Journal Of Experimental Medicine 2003, 197: 1153-1163. PMID: 12732657, PMCID: PMC2193975, DOI: 10.1084/jem.20021761.Peer-Reviewed Original ResearchConceptsHigh endothelial venulesPeripheral node addressinLymphoid organogenesisLT-alphaB cell compartmentalizationMucosal addressin cell adhesion moleculeAlpha betaLymph node functionB-cell areasAntigen presenting cellsLymphoid neogenesisPancreatic infiltratesPNAd expressionLymphoid chemokinesFDC networksMononuclear infiltrateAlpha micePresenting cellsEndothelial venulesCell adhesion moleculeCell accumulationLT-betaAdhesion moleculesNode functionPancreata