Surface expression, peptide repertoire, and thermostability of chicken class I molecules correlate with peptide transporter specificity
Surface expression, peptide repertoire, and thermostability of chicken class I molecules correlate with peptide transporter specificity
The chicken major histocompatibility complex (MHC) has strong genetic associations with resistance and susceptibility to certain infectious pathogens. The cell surface expression level of MHC class I molecules varies as much as 10-fold between chicken haplotypes and is inversely correlated with diversity of peptide repertoire and with resistance to Marek's disease caused by an oncogenic herpesvirus. Here we show that the average thermostability of class I molecules isolated from cells also varies, being higher for high-expressing MHC haplotypes. However, we find roughly the same amount of class I protein synthesized by high- and low-expressing MHC haplotypes, with movement to the cell surface responsible for the difference in expression. Previous data show that chicken TAP genes have high allelic polymorphism, with peptide translocation specific for each MHC haplotype. Here we use assembly assays with peptide libraries to show that high-expressing B15 class I molecules can bind a much wider variety of peptides than are found on the cell surface, with the B15 TAPs restricting the peptides available. In contrast, the translocation specificity of TAPs from the low-expressing B21 haplotype is even more permissive than the promiscuous binding shown by the dominantly expressed class I molecule. B15/B21 heterozygote cells show much greater expression of B15 class I molecules than B15/B15 homozygote cells, presumably as a result of receiving additional peptides from the B21 TAPs. Thus, chicken MHC haplotypes vary in several correlated attributes, with the most obvious candidate linking all these properties being molecular interactions within the peptide-loading complex (PLC).
692-697
Tregaskes, Clive
5cf36bb6-9403-4dce-9d50-5887d9ceb673
Harrison, Michael
d4173d6f-51f6-4ee1-a9be-5c185eeb4222
Sowa, Anna
1b754272-f7f2-44e1-ba2f-60e92ee5af36
Van Hateren, Andrew
e345fa3c-d89c-4b91-947e-c1d818cc7f71
Hunt, Lawrence
4e9eff0f-f994-495a-b705-a4cfe9c5683a
Vainio, Olli
7708d269-40e1-4f39-94db-8f671f2893c3
Kaufman, Jim
c2afcfb2-dc2b-45af-8c80-83ad341aa78f
19 January 2016
Tregaskes, Clive
5cf36bb6-9403-4dce-9d50-5887d9ceb673
Harrison, Michael
d4173d6f-51f6-4ee1-a9be-5c185eeb4222
Sowa, Anna
1b754272-f7f2-44e1-ba2f-60e92ee5af36
Van Hateren, Andrew
e345fa3c-d89c-4b91-947e-c1d818cc7f71
Hunt, Lawrence
4e9eff0f-f994-495a-b705-a4cfe9c5683a
Vainio, Olli
7708d269-40e1-4f39-94db-8f671f2893c3
Kaufman, Jim
c2afcfb2-dc2b-45af-8c80-83ad341aa78f
Tregaskes, Clive, Harrison, Michael, Sowa, Anna, Van Hateren, Andrew, Hunt, Lawrence, Vainio, Olli and Kaufman, Jim
(2016)
Surface expression, peptide repertoire, and thermostability of chicken class I molecules correlate with peptide transporter specificity.
Proceedings of the National Academy of Sciences, 113 (3), .
(doi:10.1073/pnas.1511859113).
(PMID:26699458)
Abstract
The chicken major histocompatibility complex (MHC) has strong genetic associations with resistance and susceptibility to certain infectious pathogens. The cell surface expression level of MHC class I molecules varies as much as 10-fold between chicken haplotypes and is inversely correlated with diversity of peptide repertoire and with resistance to Marek's disease caused by an oncogenic herpesvirus. Here we show that the average thermostability of class I molecules isolated from cells also varies, being higher for high-expressing MHC haplotypes. However, we find roughly the same amount of class I protein synthesized by high- and low-expressing MHC haplotypes, with movement to the cell surface responsible for the difference in expression. Previous data show that chicken TAP genes have high allelic polymorphism, with peptide translocation specific for each MHC haplotype. Here we use assembly assays with peptide libraries to show that high-expressing B15 class I molecules can bind a much wider variety of peptides than are found on the cell surface, with the B15 TAPs restricting the peptides available. In contrast, the translocation specificity of TAPs from the low-expressing B21 haplotype is even more permissive than the promiscuous binding shown by the dominantly expressed class I molecule. B15/B21 heterozygote cells show much greater expression of B15 class I molecules than B15/B15 homozygote cells, presumably as a result of receiving additional peptides from the B21 TAPs. Thus, chicken MHC haplotypes vary in several correlated attributes, with the most obvious candidate linking all these properties being molecular interactions within the peptide-loading complex (PLC).
Text
2016 MHC I surface expression, peptide repertoire, thermal stability correlate with TAP specificity.pdf
- Version of Record
Restricted to Repository staff only
Request a copy
More information
Accepted/In Press date: 23 November 2015
Published date: 19 January 2016
Organisations:
Cancer Sciences
Identifiers
Local EPrints ID: 393777
URI: http://eprints.soton.ac.uk/id/eprint/393777
ISSN: 0027-8424
PURE UUID: 1aeadfdb-95ef-4887-8145-847b2e27252c
Catalogue record
Date deposited: 04 May 2016 13:13
Last modified: 15 Mar 2024 03:27
Export record
Altmetrics
Contributors
Author:
Clive Tregaskes
Author:
Michael Harrison
Author:
Anna Sowa
Author:
Lawrence Hunt
Author:
Olli Vainio
Author:
Jim Kaufman
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
