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6EWC

Crystal structure of non-phosphorylated form of RLS PHOSPHOPEPTIDE BOUND TO HLA-A2 in complex with LILRB1

Summary for 6EWC
Entry DOI10.2210/pdb6ewc/pdb
DescriptorHLA class I histocompatibility antigen, A-2 alpha chain, Beta-2-microglobulin, Reticulophagy regulator 2, ... (4 entities in total)
Functional Keywordslilrb1, nonphosphopeptide, peptide-mhc complex, hla-a2, tumour antigen, crystallisation chaperone, immune system
Biological sourceHomo sapiens (Human)
More
Total number of polymer chains8
Total formula weight133008.12
Authors
Mohammed, F.,Stones, D.H.,Willcox, B.E. (deposition date: 2017-11-03, release date: 2018-11-07, Last modification date: 2024-11-06)
Primary citationMohammed, F.,Stones, D.H.,Willcox, B.E.
Application of the immunoregulatory receptor LILRB1 as a crystallisation chaperone for human class I MHC complexes.
J. Immunol. Methods, 464:47-56, 2019
Cited by
PubMed Abstract: X-ray crystallographic studies of class I peptide-MHC molecules (pMHC) continue to provide important insights into immune recognition, however their success depends on generation of diffraction-quality crystals, which remains a significant challenge. While protein engineering techniques such as surface-entropy reduction and lysine methylation have proven utility in facilitating and/or improving protein crystallisation, they risk affecting the conformation and biochemistry of the class I MHC antigen binding groove. An attractive alternative is the use of noncovalent crystallisation chaperones, however these have not been developed for pMHC. Here we describe a method for promoting class I pMHC crystallisation, by exploiting its natural ligand interaction with the immunoregulatory receptor LILRB1 as a novel crystallisation chaperone. First, focussing on a model HIV-1-derived HLA-A2-restricted peptide, we determined a 2.4 Å HLA-A2/LILRB1 structure, which validated that co-crystallisation with LILRB1 does not alter conformation of the antigenic peptide. We then demonstrated that addition of LILRB1 enhanced the crystallisation of multiple peptide-HLA-A2 complexes, and identified a generic condition for initial co-crystallisation. LILRB1 chaperone-based crystallisation enabled structure determination for HLA-A2 complexes previously intransigent to crystallisation, including both conventional and post-translationally-modified peptides, of diverse lengths. Since both the LILRB1 recognition interface on the HLA-A2 α3 domain molecule and HLA-A2-mediated crystal contacts are predominantly conserved across class I MHC molecules, the approach we outline could prove applicable to a diverse range of class I pMHC. LILRB1 chaperone-mediated crystallisation should expedite molecular insights into the immunobiology of diverse immune-related diseases and immunotherapeutic strategies, particularly involving class I pMHC complexes that are challenging to crystallise.
PubMed: 30365927
DOI: 10.1016/j.jim.2018.10.011
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (3.2 Å)
Structure validation

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건을2024-11-13부터공개중

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