Abstract
In-silico methods for the prediction of epitopes can support and improve workflows for vaccine design, antibody production, and disease therapy. So far, the scope of B cell and T cell epitope prediction has been directed exclusively towards peptidic antigens. Nevertheless, various non-peptidic molecular classes can be recognized by immune cells. These compounds have not been systematically studied yet, and prediction approaches are lacking. The ability to predict the epitope activity of non-peptidic compounds could have vast implications; for example, for immunogenic risk assessment of the vast number of drugs and other xenobiotics. Here we present the first general attempt to predict the epitope activity of non-peptidic compounds using the Immune Epitope Database (IEDB) as a source for positive samples. The molecules stored in the Chemical Entities of Biological Interest (ChEBI) database were chosen as background samples. The molecules were clustered into eight homogeneous molecular groups, and classifiers were built for each cluster with the aim of separating the epitopes from the background. Different molecular feature encoding schemes and machine learning models were compared against each other. For those models where a high performance could be achieved based on simple decision rules, the molecular features were then further investigated. Additionally, the findings were used to build a web server that allows for the immunogenic investigation of non-peptidic molecules (http://tools-staging.iedb.org/np_epitope_predictor). The prediction quality was tested with samples from independent evaluation datasets, and the implemented method received noteworthy Receiver Operating Characteristic-Area Under Curve (ROC-AUC) values, ranging from 0.69–0.96 depending on the molecule cluster.
Highlights
Defense against pathogens via the adaptive immune system depends on the distinction between endogenous and exogenous molecules produced by the host and pathogen, respectively
The specific part of an antigen that interacts with the T cell receptor (TCR) or B cell receptor (BCR) is known as the epitope
Positive structures tested in B cell and/or T cell assays were downloaded from the Immune Epitope Database (IEDB) via a web-interface query
Summary
Defense against pathogens via the adaptive immune system depends on the distinction between endogenous and exogenous molecules produced by the host and pathogen, respectively. This distinction is made by receptors located on the surface of T and B lymphocytes. T cells recognize antigens bound to the major histocompatibility complex (MHC) presented on the surface of cells. All nucleated cells present endogenous antigens via MHC class I molecules as a self/non-self distinction feature. Professional antigen-presenting cells, such as macrophages and B cells, present antigens primarily derived from the extracellular space via MHC class II molecules. B cell recognition is mediated by receptors located on the cell membrane.
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