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Single-cell EpiChem jointly measures drug–chromatin binding and multimodal epigenome

Chao Dong, Xiaoxuan Meng, Tong Zhang, Zhifang Guo, Yaxi Liu, Peihuang Wu, Shiwei Chen, Fanqi Zhou, Yanni Ma, Haiqing Xiong, Shaokun Shu, Aibin He

2024Nature Methods12 citationsDOIOpen Access PDF

Abstract

Studies of molecular and cellular functions of small-molecule inhibitors in cancer treatment, eliciting effects by targeting genome and epigenome associated proteins, requires measurement of drug-target engagement in single-cell resolution. Here we present EpiChem for in situ single-cell joint mapping of small molecules and multimodal epigenomic landscape. We demonstrate single-cell co-assays of three small molecules together with histone modifications, chromatin accessibility or target proteins in human colorectal cancer (CRC) organoids. Integrated multimodal analysis reveals diverse drug interactions in the context of chromatin states within heterogeneous CRC organoids. We further reveal drug genomic binding dynamics and adaptive epigenome across cell types after small-molecule drug treatment in CRC organoids. This method provides a unique tool to exploit the mechanisms of cell type-specific drug actions.

Topics & Concepts

EpigenomeEpigenomicsChromatinComputational biologyHistoneBiologyChIA-PETEpigeneticsContext (archaeology)Chromatin remodelingGeneticsDNA methylationDNAGeneGene expressionPaleontologySingle-cell and spatial transcriptomicsProtein Degradation and InhibitorsCancer Genomics and Diagnostics