AI Article Synopsis
- Over 500 mutations in the F8 gene are linked to non-severe haemophilia A, with some genotypes posing a higher risk of inhibitor formation.
- The study uses a computational tool, NetMHCII, to analyze how mutations affect antigen presentation and to identify HLA peptide binding patterns that could indicate future inhibitor risk.
- Researchers found that many F8 genotypes (65%) are likely to have a low risk of generating the immune response needed for inhibitor production, highlighting the need to consider both F8 genotypes and individual HLA profiles for more accurate risk predictions.
Article Abstract
Over 500 missense F8 mutations have been reported to cause non-severe haemophilia A. Some F8 genotypes appear to confer a higher risk of inhibitor formation than others and individuals with the same F8 genotype may have differing risks of inhibitor formation. We present an in silico strategy demonstrating the heterogeneity of factor VIII (FVIII)-derived antigen presentation whilst identifying patterns of human leucocyte antigen (HLA) peptide binding that might predict future inhibitor risk. A well-validated computational tool, NetMHCII, enabled large-scale comparison of predicted antigen presentation between endogenous, mutated FVIII-derived peptides and wild-type, therapeutic FVIII-derived peptides spanning all F8 missense mutation positions reported to The Haemophilia A Mutation, Structure and Resource Site (HADB). We identify 40 F8 genotypes to be 'low risk' at a 50% inhibitory concentration (IC50 )-binding threshold of 300 nmol/l (P = 0·00005), defined as absence of novel peptide-major histocompatibility complex (MHC) surfaces for all 14 common HLA-DR alleles assessed. Analysing each of the possible 7280 F8 genotype/HLA-DR permutations individually at an IC50 threshold of 300 nmol/l, 65% are predicted to not generate a novel peptide-MHC surface that would be necessary to engage T cell help for subsequent anti-FVIII antibody generation. This study demonstrates the future importance of interpreting F8 genotype in the context of an individual's HLA profile to personalize inhibitor risk prediction.
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| http://dx.doi.org/10.1111/bjh.13131 | DOI Listing |
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