Litcius/Paper detail

Transient and tunable CRISPRa regulation of APOBEC/AID genes for targeting hepatitis B virus

Dmitry Kostyushev, Sergey Brezgin, Anastasiya Kostyusheva, N. I. Ponomareva, Ekaterina Bayurova, Natalia F. Zakirova, Alla Kondrashova, Irina Goptar, Anastasiya Nikiforova, Anna Sudina, Yu.Yu. Babin, Ilya Gordeychuk, Alexander N. Lukashev, Andrey A. Zamyatnin, Alexander V. Ivanov, Vladimir Chulanov

2023Molecular Therapy — Nucleic Acids20 citationsDOIOpen Access PDF

Abstract

APOBEC/AID cytidine deaminases play an important role in innate immunity and antiviral defenses and were shown to suppress hepatitis B virus (HBV) replication by deaminating and destroying the major form of HBV genome, covalently closed circular DNA (cccDNA), without toxicity to the infected cells. However, developing anti-HBV therapeutics based on APOBEC/AID is complicated by the lack of tools for activating and controlling their expression. Here, we developed a CRISPR-activation-based approach (CRISPRa) to induce APOBEC/AID transient overexpression (>4-800,000-fold increase in mRNA levels). Using this new strategy, we were able to control APOBEC/AID expression and monitor their effects on HBV replication, mutation, and cellular toxicity. CRISPRa prominently reduced HBV replication (∼90%-99% decline of viral intermediates), deaminated and destroyed cccDNA, but induced mutagenesis in cancer-related genes. By coupling CRISPRa with attenuated sgRNA technology, we demonstrate that APOBEC/AID activation can be precisely controlled, eliminating off-site mutagenesis in virus-containing cells while preserving prominent antiviral activity. This study untangles the differences in the effects of physiologically expressed APOBEC/AID on HBV replication and cellular genome, provides insights into the molecular mechanisms of HBV cccDNA mutagenesis, repair, and degradation, and, finally, presents a strategy for a tunable control of APOBEC/AID expression and for suppressing HBV replication without toxicity.

Topics & Concepts

APOBECcccDNABiologyHepatitis B virusMutagenesisCas9APOBEC3GVirologyViral replicationCRISPRVirusGeneMutationGeneticsGenomeHBsAgCRISPR and Genetic EngineeringRNA Interference and Gene DeliveryHIV Research and Treatment