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Quantification of ongoing APOBEC3A activity in tumor cells by monitoring RNA editing at hotspots

Pégah Jalili, Danae Bowen, Adam Langenbucher, Greg Park, Karmen Aguirre, Ryan B. Corcoran, Angela G. Fleischman, Michael S. Lawrence, Lee Zou, Rémi Buisson

2020Nature Communications122 citationsDOIOpen Access PDF

Abstract

APOBEC3A is a cytidine deaminase driving mutagenesis, DNA replication stress and DNA damage in cancer cells. While the APOBEC3A-induced vulnerability of cancers offers an opportunity for therapy, APOBEC3A protein and mRNA are difficult to quantify in tumors due to their low abundance. Here, we describe a quantitative and sensitive assay to measure the ongoing activity of APOBEC3A in tumors. Using hotspot RNA mutations identified from APOBEC3A-positive tumors and droplet digital PCR, we develop an assay to quantify the RNA-editing activity of APOBEC3A. This assay is superior to APOBEC3A protein- and mRNA-based assays in predicting the activity of APOBEC3A on DNA. Importantly, we demonstrate that the RNA mutation-based APOBEC3A assay is applicable to clinical samples from cancer patients. Our study presents a strategy to follow the dysregulation of APOBEC3A in tumors, providing opportunities to investigate the role of APOBEC3A in tumor evolution and to target the APOBEC3A-induced vulnerability in therapy.

Topics & Concepts

Cytidine deaminaseRNACancer researchDNA damageMolecular biologyDNAMedicineBiologyGeneticsGeneCancer Genomics and DiagnosticsRNA modifications and cancerRNA Research and Splicing
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