2025
Germline-encoded recognition of peanut underlies development of convergent antibodies in humans
Marini-Rapoport O, Andrieux L, Keswani T, Zong G, Duchen D, Yaari G, Min J, Lytle I, Rosenberg A, Fucile C, Kobie J, Piepenbrink M, Sun T, Martin V, Yuan Q, Shreffler W, Seppo A, Järvinen K, Loeffler J, Ward A, Kleinstein S, Pedersen L, Fernández-Quintero M, Mueller G, Patil S. Germline-encoded recognition of peanut underlies development of convergent antibodies in humans. Science Translational Medicine 2025, 17: eadw4148. PMID: 40498852, DOI: 10.1126/scitranslmed.adw4148.Peer-Reviewed Original ResearchConceptsGene rearrangementsAllergen-specific IgG antibodiesPeanut-allergic childrenContext of food allergyGermline antibody repertoireDietary antigensAntibody gene rearrangementsPublic epitopesFood allergySerum IgGIgG antibodiesAntibody specificityImmunoglobulin GDiverse cohortAntibodiesAntibody repertoireAra h 2IgG recognitionEpitope-paratope interactionH-2AntigenGermlineIgGPeanut allergen Ara h 2Antigenicity of food proteins
2020
The evanescence and persistence of RBC alloantibodies in blood donors
Hauser RG, Esserman D, Karafin MS, Tan S, Balbuena‐Merle R, Spencer BR, Roubinian NH, Wu Y, Triulzi DJ, Kleinman S, Gottschall JL, Hendrickson JE, Tormey CA, ). The evanescence and persistence of RBC alloantibodies in blood donors. Transfusion 2020, 60: 831-839. PMID: 32061102, DOI: 10.1111/trf.15718.Peer-Reviewed Original ResearchConceptsBlood donorsAntibody persistenceAntibody screenDonor Evaluation Study-IIIHistory of transfusionUS blood centersFit inclusion criteriaPresence of alloantibodiesRecipient EpidemiologyRBC alloantibodiesBlood productsInclusion criteriaSignificant antibodiesBiologic factorsHealthy populationAntibody detectionAntibody identificationAlloantibodiesBlood centersMultiple antibodiesFirst donationAntibody specificityStudy IIIAntibodiesCenter policies
2013
PhIP-Seq characterization of autoantibodies from patients with multiple sclerosis, type 1 diabetes and rheumatoid arthritis
Larman HB, Laserson U, Querol L, Verhaeghen K, Solimini NL, Xu GJ, Klarenbeek PL, Church GM, Hafler DA, Plenge RM, Nigrovic PA, De Jager PL, Weets I, Martens GA, O'Connor KC, Elledge SJ. PhIP-Seq characterization of autoantibodies from patients with multiple sclerosis, type 1 diabetes and rheumatoid arthritis. Journal Of Autoimmunity 2013, 43: 1-9. PMID: 23497938, PMCID: PMC3677742, DOI: 10.1016/j.jaut.2013.01.013.Peer-Reviewed Original ResearchConceptsType 1 diabetes patientsRheumatoid arthritis patientsMultiple sclerosis patientsLoss of tolerancePhage immunoprecipitation sequencingType 1 diabetesNeurological autoimmunitySeropositivity statusArthritis patientsRheumatoid arthritisSclerosis patientsMultiple sclerosisAutoimmune diseasesDiabetes patientsCerebrospinal fluidGeneral populationSynovial fluidHealthy seraPatientsSusceptible individualsAntibody specificityDiseaseReceptor specificitySerumHuman peptidome
2009
IMMUNOHEMATOLOGY: The characterization and classification of concurrent blood group antibodies
Tormey CA, Stack G. IMMUNOHEMATOLOGY: The characterization and classification of concurrent blood group antibodies. Transfusion 2009, 49: 2709-2718. PMID: 19682334, DOI: 10.1111/j.1537-2995.2009.02337.x.Peer-Reviewed Original ResearchConceptsBlood group antibodiesGroup antibodiesVeterans Affairs Medical CenterAntigenic specificityAlloimmunized individualsConcurrent antibodiesAntibody persistenceTransfusion recordsAntibody screenAlloimmunized patientsTime of disappearanceMedical CenterPatientsBG antibodyStudy designAntibody specificityAntibodiesAlloantibodiesAlloimmunizationAntibody pairsCompatibility testingSpecificityMost cases
1996
γδ T cell help of B cells is induced by repeated parasitic infection, in the absence of other T cells
Pao W, Wen L, Smith A, Gulbranson-Judge A, Zheng B, Kelsoe G, MacLennan I, Owen M, Hayday A. γδ T cell help of B cells is induced by repeated parasitic infection, in the absence of other T cells. Current Biology 1996, 6: 1317-1325. PMID: 8939571, DOI: 10.1016/s0960-9822(02)70718-5.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, AntinuclearAntibodies, ProtozoanB-LymphocytesCD4 AntigensCoccidiosisEimeriaGene Rearrangement, gamma-Chain T-Cell Antigen ReceptorGerminal CenterImmunity, CellularImmunoglobulin GMiceMice, Mutant StrainsReceptors, Antigen, T-Cell, gamma-deltaT-Lymphocytes, Helper-InducerConceptsGamma delta T cellsDelta T cellsT cell-B cell collaborationT cell helpT cell-deficient miceCell-deficient miceGamma delta cellsT cellsCell helpB cellsGerminal centersParasitic infectionsCell collaborationAlpha beta T cellsBeta T cellsT cell deficiencyDelta cellsDevelopment of autoimmunityAntibody levelsMycobacterial antigensCell deficiencyImmune responseAnatomical focusImmune systemAntibody specificity
1990
The analysis of antinuclear and antinucleolar autoantibodies of scleroderma by radioimmunoprecipitation assays
Kipnis R, Craft J, Hardin J. The analysis of antinuclear and antinucleolar autoantibodies of scleroderma by radioimmunoprecipitation assays. Arthritis & Rheumatism 1990, 33: 1431-1437. PMID: 2403405, DOI: 10.1002/art.1780330917.Peer-Reviewed Original ResearchConceptsCommon antibody specificitiesPrimary Raynaud's phenomenonScleroderma overlap syndromeOverlap syndromeDiffuse sclerodermaRaynaud's phenomenonRNP antibodiesCREST syndromeAntinucleolar autoantibodiesAmerican patientsRadioimmunoprecipitation assaysAutoantibodiesIndirect immunofluorescenceSclerodermaAntibody specificityNucleolar antigensPatientsSyndromeAntibodiesImmunoprecipitation assaysAssays
1987
Angiotensin converting enzyme immunohistochemistry in rat brain and pituitary gland: Correlation of isozyme type with cellular localization
Strittmatter SM, Snyder SH. Angiotensin converting enzyme immunohistochemistry in rat brain and pituitary gland: Correlation of isozyme type with cellular localization. Neuroscience 1987, 21: 407-420. PMID: 3039401, DOI: 10.1016/0306-4522(87)90131-x.Peer-Reviewed Original ResearchConceptsAngiotensin converting enzymeSubstantia nigraRat brainChoroid plexusPituitary glandPosterior pituitaryConverting enzymePituitary stalk sectionEntopeduncular nucleusSubfornical organCaudate putamenGlobus pallidusEnzyme immunoreactivityParaventricular nucleusAnterior pituitaryAngiotensinEnzyme inhibitorsPosterior lobeIntense stainingCell bodiesMonoclonal antibodiesDiffuse stainingEndothelial cellsEnzyme immunohistochemistryAntibody specificity
1984
Somatic mutation and the maturation of immune response to 2-phenyl oxazolone
Griffiths G, Berek C, Kaartinen M, Milstein C. Somatic mutation and the maturation of immune response to 2-phenyl oxazolone. Nature 1984, 312: 271-275. PMID: 6504141, DOI: 10.1038/312271a0.Peer-Reviewed Original Research
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply