Litcius/Paper detail

PaccMann: a web service for interpretable anticancer compound sensitivity prediction

Joris Cadow, Jannis Born, Matteo Manica, Ali Oskooei, María Rodríguez Martínez

2020Nucleic Acids Research83 citationsDOIOpen Access PDF

Abstract

The identification of new targeted and personalized therapies for cancer requires the fast and accurate assessment of the drug efficacy of potential compounds against a particular biomolecular sample. It has been suggested that the integration of complementary sources of information might strengthen the accuracy of a drug efficacy prediction model. Here, we present a web-based platform for the Prediction of AntiCancer Compound sensitivity with Multimodal Attention-based Neural Networks (PaccMann). PaccMann is trained on public transcriptomic cell line profiles, compound structure information and drug sensitivity screenings, and outperforms state-of-the-art methods on anticancer drug sensitivity prediction. On the open-access web service (https://ibm.biz/paccmann-aas), users can select a known drug compound or design their own compound structure in an interactive editor, perform in-silico drug testing and investigate compound efficacy on publicly available or user-provided transcriptomic profiles. PaccMann leverages methods for model interpretability and outputs confidence scores as well as attention heatmaps that highlight the genes and chemical sub-structures that were more important to make a prediction, hence facilitating the understanding of the model's decision making and the involved biochemical processes. We hope to serve the community with a toolbox for fast and efficient validation in drug repositioning or lead compound identification regimes.

Topics & Concepts

InterpretabilityIdentification (biology)Sensitivity (control systems)In silicoMachine learningComputer scienceDrugWeb serviceToolboxService (business)BiologyComputational biologyArtificial intelligenceData miningWorld Wide WebPharmacologyEngineeringEconomyElectronic engineeringGeneBotanyEconomicsBiochemistryProgramming languageComputational Drug Discovery MethodsBioinformatics and Genomic NetworksMicrobial Natural Products and Biosynthesis