Miguel Amaya scite author profile

Human leukocyte antigen (HLA)-DM is an unconventional major histocompatibility complex (MHC) class II heterodimer that is important for B-cell-mediated antigen processing and presentation to MHC class II-restricted T cells. HLA-DM is encoded by two genes, DMA and DMB, which map to the MHC class II region, and shares some homology with MHC class I and class II proteins. Here we define the biochemical role of HLA-DM. Recombinant soluble HLA-DM heterodimers have been purified from culture supernatants of insect cell transformants. At pH 5.0, they induce the dissociation of a subset of peptides bound to HLA-DR, including a nested set of class-II-associated invariant chain peptides (CLIP). This process liberates HLA-DR and leads to the enhanced binding of exogenous peptides.

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The structure of an intermediate in class II MHC maturation: CLIP bound to HLA-DR3

Ghosh

Amaya

Mellins

et al. 1995

Nature

568

412

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A complex between HLA-DR3 and a fragment of invariant chain called CLIP was isolated from a human cell line defective in antigen presentation and its X-ray crystal structure determined. Previous data indicate that this complex is an intermediate in class II histocompatibility maturation, occurring between invariant chain-DR3 and antigenic peptide-DR3 complexes. The structure shows that the CLIP fragment binds to DR3 in a way almost identical to that in which antigenic peptides bind class II histocompatibility glycoproteins. The structure is the substrate for the loading of antigenic peptides by an exchange process catalysed by DM.

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An essential role for HLA–DM in antigen presentation by class II major histocompatibility molecules

Morris

Shaman

Attaya

et al. 1994

Nature

350

124

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In antigen-presenting cells, class II molecules of the major histocompatibility complex (MHC) bind peptides derived from endocytosed proteins. In certain B-lymphoblastoid cell mutants, MHC class II molecule-peptide complex formation is impaired, resulting in deficient antigen-presenting function. MHC deletion mutants with this defect map the responsible gene(s) to the class II region of the MHC. Here we report that multiple independent mutants with the class II presentation defect harbour lesions in HLA-DMB, an MHC-linked gene encoding a class II-like beta-chain. Expression of DMB complementary DNA in mutants lacking DMB messenger RNA restores the wild-type phenotype. These results establish HLA-DM as a critical regulatory molecule in class II-restricted antigen presentation and suggest that it functions at an intracellular site to promote class II molecule-peptide association.

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A mutant human histocompatibility leukocyte antigen DR molecule associated with invariant chain peptides.

Mellins

Cameron

Amaya

et al. 1994

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From a human histocompatibility leukocyte antigen (HLA)-DR/DQ hemizygous, B lymphoblastoid progenitor, we isolated a cell line, 10.24.6, with a DR alpha missense mutation (96P-->96S), which results in an N-linked carbohydrate addition at position 94 in the DR alpha 2 domain. Several features of 10.24.6 cells suggest that the mutation disrupts normal intracellular formation of peptide/DR complexes. The mutant HLA-DR dimers, though expressed at the cell surface, lack the conformation of the mature, peptide-loaded class II molecules of the progenitor cell, as assessed by their loss of binding of certain antibodies and by the lack of stability in detergent (sodium dodecyl sulfate) solution. In addition, presentation of endocytosed antigen to HLA-DR-restricted T cells is defective in the mutant, but can be restored by transfection of a wild type DRA gene. Assays with synthetic peptides indicate that the 10.24.6 phenotype is not due to an intrinsic inability of the mutant DR molecules to bind peptides. Therefore, to directly evaluate peptide occupancy of the mutant molecules, we analyzed acid-eluted, HLA-DR-associated peptides. The predominant species from the 10.24.6 mutant is a nested set of invariant chain (Ii)-derived peptides that are undetectable in the DR eluate from progenitor cells. The region of DR alpha altered in the mutant molecules is thus implicated in normal formation of peptide/DR complexes. Further, the same set of Ii peptides associated with the DR molecules is present in the eluate from an antigen presentation mutant with a defect in an major histocompatibility complex (MHC)-linked gene. These results suggest that DR molecules in 10.24.6 and in certain presentation mutants are affected at the same or related steps in class II molecule biosynthesis, raising the possibility that class II molecules interact with an MHC-encoded accessory molecule during antigen presentation.

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Biochemical analysis of a mutant HLA-DM molecule containing a Cys79 → Tyr mutation

Busch¹,

Scheven²,

Amaya³

et al. 1996

Human Immunology

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Miguel Amaya

Mediation by HLA-DM of dissociation of peptides from HLA-DR

The structure of an intermediate in class II MHC maturation: CLIP bound to HLA-DR3

An essential role for HLA–DM in antigen presentation by class II major histocompatibility molecules

A mutant human histocompatibility leukocyte antigen DR molecule associated with invariant chain peptides.

Biochemical analysis of a mutant HLA-DM molecule containing a Cys79 → Tyr mutation

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