Author:
Chaturvedi Sonali,Wolf Marie,Vardi Noam,Du Kelvin,Glazier Joshua,Ke Ruian,Chan Matilda F.,Perelson Alan S.,Weinberger Leor S.
Abstract
AbstractFrom microbes to cancers, drug-resistant ‘escape’ variants cause significant morbidity and mortality1–7. Here we present proof-of-concept that disruption of viral auto-regulatory (feedback) circuits strongly inhibits viral replication and confers an extremely high barrier to the evolution of resistance. Using DNA duplexes, we develop single-molecule ‘feedback-circuit disruptors’ that interfere with transcriptional negative feedback in human herpesviruses (both Herpes Simplex Virus 1 and Cytomegalovirus) thereby increasing viral transcription factors to cytotoxic levels. Feedback disruptors exhibit low-nanomolar to picomolar IC-50’s, reduce viral replication >100-fold in culture and in mice, and synergize with the standard-of-care antivirals. Strikingly, no feedback-disruptor escape mutants evolved over >60 days of culture, in contrast to approved antivirals to which resistance rapidly evolved. Overall, the results demonstrate that molecular targeting of feedback circuitry could yield escape-resistant antivirals, potentially enabling development of a new class of antimicrobials.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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1. Mycobacterium tuberculosisMetabolism;Gram-Positive Pathogens;2019-11-26
2. Mycobacterium tuberculosis
Metabolism;Microbiology Spectrum;2019-08-16