Nature Communications (Aug 2024)

An enantioselective and modular platform for C4ʹ-modified nucleoside analogue synthesis enabled by intramolecular trans-acetalizations

  • Thirupathi Nuligonda,
  • Gautam Kumar,
  • Jason W. Wang,
  • Dinithi Rajapaksha,
  • Ismael A. Elayan,
  • Ramiz Demir,
  • Neil J. Meanwell,
  • Sherrie F. Wang,
  • Lara K. Mahal,
  • Alex Brown,
  • Michael W. Meanwell

DOI
https://doi.org/10.1038/s41467-024-51520-5
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 7

Abstract

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Abstract C4ʹ-modified nucleoside analogues continue to attract global attention for their use in antiviral drug development and oligonucleotide-based therapeutics. However, current approaches to C4ʹ-modified nucleoside analogues still involve lengthy (9–16 steps), non-modular routes that are unamenable to library synthesis. Towards addressing the challenges associated with their syntheses, we report a modular 5-step process to a diverse collection of C4ʹ-modified nucleoside analogues through a sequence of intramolecular trans-acetalizations of readily assembled polyhydroxylated frameworks. Overall, the 2–3 fold reduction in step-count compares favorably to even recently reported biocatalytic approaches and should ultimately enable new opportunities in drug design around this popular chemotype.