Nucleic acid structure plays a critical
role in governing
the selectivity
of DNA- and RNA-modifying enzymes. In the case of the APOBEC3 family
of cytidine deaminases, these enzymes catalyze the conversion of cytosine
(C) to uracil (U) in single-stranded DNA, primarily in the context
of innate immunity. DNA deamination can also have pathological consequences,
accelerating the evolution of viral genomes or, when the host genome
is targeted by either APOBEC3A (A3A) or APOBEC3B (A3B), promoting
tumor evolution leading to worse patient prognosis and chemotherapeutic
resistance. For A3A, nucleic acid secondary structure has emerged
as a critical determinant of substrate targeting, with a predilection
for DNA that can form stem loop hairpins. Here, we report the development
of a specific nanomolar-level, nucleic acid-based inhibitor of A3A.
Our strategy relies on embedding the nucleobase 5-methylzebularine,
a mechanism-based inhibitor, into a DNA dumbbell structure, which
mimics the ideal substrate secondary structure for A3A. Structure–activity
relationship studies using a panel of diverse inhibitors reveal a
critical role for the stem and position of the inhibitor moiety in
achieving potent inhibition. Moreover, we demonstrate that DNA dumbbell
inhibitors, but not nonstructured inhibitors, show specificity against
A3A relative to the closely related catalytic domain of A3B. Overall,
our work demonstrates the feasibility of leveraging secondary structural
preferences in inhibitor design, offering a blueprint for further
development of modulators of DNA-modifying enzymes and potential therapeutics
to circumvent APOBEC-driven viral and tumor evolution.
Light activation is an effective way to impart spatiotemporal control over oligonucleotide probes that are widely applied for gene expression regulation and target function investigation. Among the major oligonucleotide caging strategies, cyclization with a photocleavable linker is an elegant design, which affords both atom efficiency and stability in many biological environments. Here, we introduce an improved protocol for circular oligonucleotide synthesis requiring only one round of HPLC purification. With a series of poly‐U oligonucleotide strands of different sizes and backbone modifications, the pre‐photolysis caging stability and post‐photolysis target binding affinity were studied through a denaturing gel assay and melting temperature measurements. A 14 U 2'‐OMe RNA probe was selected, with strong potential application in transcriptome in vivo analysis (TIVA) for mRNA isolation.
Many cancer patients suffer permanent hearing loss due to accumulation of ototoxic cisplatin in the inner ear. In this study, two types of 100-nm magnetic micelles were developed to sequester...
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