[HTML][HTML] The utility of supertype clustering in prediction for class II MHC-peptide binding

WJ Shen, X Zhang, S Zhang, C Liu, W Cui - Molecules, 2018 - mdpi.com
WJ Shen, X Zhang, S Zhang, C Liu, W Cui
Molecules, 2018mdpi.com
Motivation: Extensive efforts have been devoted to understanding the antigenic peptides
binding to MHC class I and II molecules since they play a fundamental role in controlling
immune responses and due their involvement in vaccination, transplantation, and
autoimmunity. The genes coding for the MHC molecules are highly polymorphic, and it is
difficult to build computational models for MHC molecules with few know binders. On the
other hand, previous studies demonstrated that some MHC molecules share overlapping …
Motivation: Extensive efforts have been devoted to understanding the antigenic peptides binding to MHC class I and II molecules since they play a fundamental role in controlling immune responses and due their involvement in vaccination, transplantation, and autoimmunity. The genes coding for the MHC molecules are highly polymorphic, and it is difficult to build computational models for MHC molecules with few know binders. On the other hand, previous studies demonstrated that some MHC molecules share overlapping peptide binding repertoires and attempted to group them into supertypes. Herein, we present a framework of the utility of supertype clustering to gain more information about the data to improve the prediction accuracy of class II MHC-peptide binding. Results: We developed a new method, called superMHC, for class II MHC-peptide binding prediction, including three MHC isotypes of HLA-DR, HLA-DP, and HLA-DQ, by using supertype clustering in conjunction with RLS regression. The supertypes were identified by using a novel repertoire dissimilarity index to quantify the difference in MHC binding specificities. The superMHC method achieves the state-of-the-art performance and is demonstrated to predict binding affinities to a series of MHC molecules with few binders accurately. These results have implications for understanding receptor-ligand interactions involved in MHC-peptide binding.
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