The Intergenic Recombinant HLA-B∗46:01 Has a Distinctive Peptidome that Includes KIR2DL3 Ligands

Publication date: 16 May 2017
Source:Cell Reports, Volume 19, Issue 7
Author(s): Hugo G. Hilton, Curtis P. McMurtrey, Alex S. Han, Zakia Djaoud, Lisbeth A. Guethlein, Jeroen H. Blokhuis, Jason L. Pugh, Ana Goyos, Amir Horowitz, Rico Buchli, Ken W. Jackson, Wilfred Bardet, David A. Bushnell, Philip J. Robinson, Juan L. Mendoza, Michael E. Birnbaum, Morten Nielsen, K. Christopher Garcia, William H. Hildebrand, Peter Parham
HLA-B^∗46:01 was formed by an intergenic mini-conversion, between HLA-B^∗15:01 and HLA-C^∗01:02, in Southeast Asia during the last 50,000 years, and it has since become the most common HLA-B allele in the region. A functional effect of the mini-conversion was introduction of the C1 epitope into HLA-B^∗46:01, making it an exceptional HLA-B allotype that is recognized by the C1-specific natural killer (NK) cell receptor KIR2DL3. High-resolution mass spectrometry showed that HLA-B^∗46:01 has a low-diversity peptidome that is distinct from those of its parents. A minority (21%) of HLA-B^∗46:01 peptides, with common C-terminal characteristics, form ligands for KIR2DL3. The HLA-B^∗46:01 peptidome is predicted to be enriched for peptide antigens derived from Mycobacterium leprae. Overall, the results indicate that the distinctive peptidome and functions of HLA-B^∗46:01 provide carriers with resistance to leprosy, which drove its rapid rise in frequency in Southeast Asia.

Graphical abstract

Teaser

Hilton et al. show how the recombination that formed HLA-B∗46:01 endowed it with a distinctive peptidome and unique functional properties. These properties likely protect carriers from severe infection with Mycobacterium leprae, the cause of leprosy, and they may account for the high frequency of HLA-B∗46:01 in Southeast Asia.


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