The Catch-22 of Predicting hERG Blockade Using Publicly Accessible Bioactivity Data
Drug-induced inhibition of the human ether-à-go-go-related gene (hERG)-encoded potassium ion channels can lead to fatal cardiotoxicity. Several marketed drugs and promising drug candidates were recalled because of this concern. Diverse modeling methods ranging from molecular similarity assessment to quantitative structure-activity relationship analysis employing machine learning techniques have been applied to data sets of varying size and composition (number of blockers and nonblockers). In this study, we highlight the challenges involved in the development of a robust classifier for predicting the hERG end point using bioactivity data extracted from the public domain. To this end, three different modeling methods, nearest neighbors, random forests, and support vector machines, were employed to develop predictive models using different molecular descriptors, activity thresholds, and training set compositions. Our models demonstrated superior performance in external validations in comparison with those reported in the previous studies from which the data sets were extracted. The choice of descriptors had little influence on the model performance, with minor exceptions. The criteria used to filter bioactivity data, the activity threshold settings used to separate blockers from nonblockers, and the structural diversity of blockers in training data set were found to be the crucial indicators of model performance. Training sets based on a binary threshold of 1 μM/10 μM to separate blockers (IC50/ Ki ≤ 1 μM) from nonblockers (IC50/ Ki > 10 μM) provided superior performance in comparison with those defined using a single threshold (1 μM or 10 μM). A major limitation in using the public domain hERG activity data is the abundance of blockers in comparison with nonblockers at usual activity thresholds, since not many studies report the latter.
Related content
Predicting pKa
One of the most important physicochemical properties of small molecules and macromolecules are the...
Coupling stabilizers open KV1-type potassium channels
ABSTRACT: The opening and closing of voltage-gated ion channels are regulated by voltage sensors...
Responding to the Challenge Posed by the Generic Control of Substances
Drug monitoring organizations report that new psychoactive substances continue to emerge, posing...
Boost analytical experiments with phys-chem properties
Physicochemical properties have a fundamental impact on analytical experiment conditions,...