The Impact of Sugar Conformation on the Single-Stranded DNA Selectivity of APOBEC3A and APOBEC3B Enzymes

Mackenzie K. Wyllie, Clare K. Morris, Nicholas H. Moeller, Henry A.M. Schares, Ramkumar Moorthy, Christopher A. Belica, Michael J. Grillo, Özlem Demir, Alex M. Ayoub, Michael A. Carpenter, Hideki Aihara, Reuben S. Harris, Rommie E. Amaro, Daniel A. Harki

Research output: Contribution to journalArticlepeer-review

Abstract

The APOBEC3 family of polynucleotide cytidine deaminases has diverse roles as viral restriction factors and oncogenic mutators. These enzymes convert cytidine to uridine in single-stranded (ss)DNA, inducing genomic mutations that promote drug resistance and tumor heterogeneity. Of the seven human APOBEC3 members, APOBEC3A (A3A) and APOBEC3B (A3B) are most implicated in driving pro-tumorigenic mutations. How these enzymes engage and selectively deaminate ssDNA over RNA is not well understood. We previously conducted molecular dynamics (MD) simulations that support the role of sugar conformation as a key molecular determinant in nucleic acid recognition by A3B. We hypothesize that A3A and A3B selectively deaminate substrates in the 2′-endo (DNA) conformation and show reduced activity for 3′-endo (RNA) conformation substrates. Consequently, we have characterized A3A- and A3B-binding and deaminase activity with chimeric oligonucleotides containing cytidine analogues that promote either the 2′-endo or 3′-endo conformation. Using fluorescence polarization and gel-based deamination assays, we determined that sugar conformation preferentially impacts the ability of these enzymes to deaminate substrates and less so binding to substrates. Using MD simulations, we identify specific active site interactions that promote selectivity based on the 2′-endo conformation. These findings help inform the biological functions of A3A and A3B in providing antiviral innate immunity and pathogenic functions in cancer.

Original languageEnglish (US)
Pages (from-to)117-127
Number of pages11
JournalACS Chemical Biology
Volume20
Issue number1
DOIs
StatePublished - Jan 17 2025

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© 2024 American Chemical Society.

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