Litcius/Paper detail

Generative deep learning enables the discovery of a potent and selective RIPK1 inhibitor

Yueshan Li, Liting Zhang, Yifei Wang, Jun Zou, Ruicheng Yang, Xinling Luo, Chengyong Wu, Wei Yang, Chenyu Tian, Haixing Xu, Falu Wang, Xin Yang, Linli Li, Shengyong Yang

2022Nature Communications99 citationsDOIOpen Access PDF

Abstract

The retrieval of hit/lead compounds with novel scaffolds during early drug development is an important but challenging task. Various generative models have been proposed to create drug-like molecules. However, the capacity of these generative models to design wet-lab-validated and target-specific molecules with novel scaffolds has hardly been verified. We herein propose a generative deep learning (GDL) model, a distribution-learning conditional recurrent neural network (cRNN), to generate tailor-made virtual compound libraries for given biological targets. The GDL model is then applied to RIPK1. Virtual screening against the generated tailor-made compound library and subsequent bioactivity evaluation lead to the discovery of a potent and selective RIPK1 inhibitor with a previously unreported scaffold, RI-962. This compound displays potent in vitro activity in protecting cells from necroptosis, and good in vivo efficacy in two inflammatory models. Collectively, the findings prove the capacity of our GDL model in generating hit/lead compounds with unreported scaffolds, highlighting a great potential of deep learning in drug discovery.

Topics & Concepts

Drug discoveryDeep learningGenerative grammarComputer scienceVirtual screeningGenerative modelScaffoldNecroptosisGenerative adversarial networkDrug repositioningArtificial intelligenceComputational biologyMachine learningDrugBioinformaticsBiologyPharmacologyProgrammed cell deathBiochemistryDatabaseApoptosisComputational Drug Discovery Methodsinterferon and immune responsesRNA and protein synthesis mechanisms