A network-based transcriptomic landscape of HepG2 cells uncovering causal gene-cytotoxicity interactions underlying drug-induced liver injury

Author:

Wijaya Lukas S1,Gabor Attila23,Pot Iris E1,van de Have Luca1,Saez-Rodriguez Julio23,Stevens James L1,Le Dévédec Sylvia E1,Callegaro Giulia1,van de Water Bob1

Affiliation:

1. Leiden Academic Centre for Drug Research (LACDR), Faculty of Science, Leiden University , 2333 Leiden, The Netherlands

2. Institute for Computational Biomedicine, Faculty of Medicine, Heidelberg University , 69120 Heidelberg, Germany

3. Heidelberg University Hospital, Molecular Medicine Partnership Unit , 69120 Heidelberg, Germany

Abstract

Abstract Drug-induced liver injury (DILI) remains the main reason for drug development attritions largely due to poor mechanistic understanding. Toxicogenomic to interrogate the mechanism of DILI has been broadly performed. Gene coregulation network-based transcriptome analysis is a bioinformatics approach that potentially contributes to improve mechanistic interpretation of toxicogenomic data. Here we performed an extensive concentration time course response-toxicogenomic study in the HepG2 cell line exposed to 20 DILI compounds, 7 reference compounds for stress response pathways, and 10 agonists for cytokines and growth factor receptors. We performed whole transcriptome targeted RNA sequencing to more than 500 conditions and applied weighted gene coregulated network analysis to the transcriptomics data followed by the identification of gene coregulated networks (modules) that were strongly modulated upon the exposure of DILI compounds. Preservation analysis on the module responses of HepG2 and PHH demonstrated highly preserved adaptive stress response gene coregulated networks. We correlated gene coregulated networks with cell death onset and causal relationships of 67 critical target genes of these modules with the onset of cell death was evaluated using RNA interference screening. We identified GTPBP2, HSPA1B, IRF1, SIRT1, and TSC22D3 as essential modulators of DILI compound-induced cell death. These genes were also induced by DILI compounds in PHH. Altogether, we demonstrate the application of large transcriptome datasets combined with network-based analysis and biological validation to uncover the candidate determinants of DILI.

Funder

EU-EFPIA Innovative Medicines Initiative 2

Joint Undertaking TransQST project

European Union’s Horizon 2020

EC Horizon2020 EU-ToxRisk project

EC Horizon2020 Risk-Hunt3R project

Publisher

Oxford University Press (OUP)

Subject

Toxicology

Cited by 1 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Progress in toxicogenomics to protect human health;Nature Reviews Genetics;2024-09-02

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