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RESEARCH PRODUCT

Exploring the MHC-peptide matrix of central tolerance in the human thymus

Eleni AdamopoulouChristina StoeckleIoanna A. RotaSilvia TietzNina HillenHansjörg SchildStefan StevanovicEva TolosaPaula KlugStefan TenzerMadlen GebhardtArthur Melms

subject

MaleAdolescentT-LymphocytesEnolaseAntigen-Presenting CellsGeneral Physics and AstronomyAutoimmunity610 Medicine & healthPeptideVimentinThymus GlandMatrix (biology)LigandsMajor histocompatibility complexAutoantigensGeneral Biochemistry Genetics and Molecular BiologyMajor Histocompatibility ComplexEpitopesIn vivoHumansMyeloid Cells610 Medicine & healthchemistry.chemical_classificationAntigen PresentationMultidisciplinarybiologyRepertoireHistocompatibility Antigens Class IHistocompatibility Antigens Class IIInfantDendritic CellsGeneral ChemistryCD11c AntigenCell biologychemistryChild PreschoolCentral ToleranceImmunologybiology.proteinFemaleCentral tolerancePeptides

description

Ever since it was discovered that central tolerance to self is imposed on developing T cells in the thymus through their interaction with self-peptide major histocompatibility complexes on thymic antigen-presenting cells, immunologists have speculated about the nature of these peptides, particularly in humans. Here, to shed light on the so-far unknown human thymic peptide repertoire, we analyse peptides eluted from isolated thymic dendritic cells, dendritic cell-depleted antigen-presenting cells and whole thymus. Bioinformatic analysis of the 842 identified natural major histocompatibility complex I and II ligands reveals significant cross-talk between major histocompatibility complex-class I and II pathways and differences in source protein representation between individuals as well as different antigen-presenting cells. Furthermore, several autoimmune- and tumour-related peptides, from enolase and vimentin for example, are presented in the healthy thymus. 302 peptides are directly derived from negatively selecting dendritic cells, thus providing the first global view of the peptide matrix in the human thymus that imposes self-tolerance in vivo.

yearjournalcountryeditionlanguage
2013-06-01Nature Communications
https://doi.org/10.1038/ncomms3039