1. Academic Validation
  2. Nonclassical HLA-G molecules are classical peptide presenters

Nonclassical HLA-G molecules are classical peptide presenters

  • Curr Biol. 1996 Mar 1;6(3):305-14. doi: 10.1016/s0960-9822(02)00481-5.
M Diehl 1 C Münz W Keilholz S Stevanović N Holmes Y W Loke H G Rammensee
Affiliations

Affiliation

  • 1 Abteilung Tumorvirus-Immunologie (0620), Deutsches Krebsforschungszentrum, Im Neuenheimer Feld 242, 69120 Heidelberg, Germany.
Abstract

Background: The physiological functions of the classical HLA (human leukocyte antigen) molecules, HLA-A, HLA-B and HLA-C, are to present Peptides to T cells and to inhibit the activity of natural killer cells. In contrast, the functions of nonclassical HLA-molecules, such as HLA-E, HLA-F and HLA-G, remain to be established. The expression of HLA-G is largely limited to the placental trophoblast, where it might mediate protection of the fetus from rejection by the mother. Achieving the aim of understanding the function of HLA-G should be facilitated by information on the biochemical properties of HLA-G molecules, especially on their potential ability to act as peptide receptors.

Results: To study peptide presentation by HLA-G, we used stably transfected LCL721.221 cells as a source of HLA-G molecules and analysed the spectrum of extracted Peptides by individual and pool Sequencing. Our results indicate that HLA-G molecules, like classical HLA molecules, are associated with a wide array of Peptides derived from cellular proteins. Peptides presented by HLA-G usually consisted of 9 Amino acids, and adhered to a specific sequence motif, with anchor residues at position 2 (isoleucine or leucine), position 3 (proline) and the carboxy-terminal position 9 (leucine). Thus, the HLA-G peptide ligand motif follows the principles of classical HLA motifs, although it displays its own unique features. Peptide-binding assays indicated that two of the three anchor residues were sufficient for binding, and that the three natural HLA-G ligands that we identified bound, not only to HLA-G, but also to HLA-A2. This was not surprising, because the binding pockets of HLA-A2 and HLA-G overlap in their ability to recognize anchor residues at positions 2 and 9. Likewise, some, but not all, HLA-A2 peptide ligands could also bind to HLA-G.

Conclusions: Nonclassical HLA-G molecules present Peptides essentially in the same way as classical HLA molecules do. We determined the peptide motif that is specifically recognized by HLA-G; its basic features are described by the sequence XI/LPXXXXXL: This information should help to elucidate the physiological role of HLA-G molecules at the fetal-maternal interface. Most likely, this role is to protect fetal cells from lysis by natural killer cells, and possibly to present foreign Peptides to a class of T cells that has not yet been identified.

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