Nature Communications (Oct 2024)

Designing chemical systems for precision deuteration of medicinal building blocks

  • Jonathan D. Dabbs,
  • Caleb C. Taylor,
  • Martin S. Holdren,
  • Sarah E. Brewster,
  • Brian T. Quillin,
  • Alvin Q. Meng,
  • Diane A. Dickie,
  • Brooks H. Pate,
  • W. Dean Harman

DOI
https://doi.org/10.1038/s41467-024-52127-6
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Methods are lacking that can prepare deuterium-enriched building blocks, in the full range of deuterium substitution patterns at the isotopic purity levels demanded by pharmaceutical use. To that end, this work explores the regio- and stereoselective deuteration of tetrahydropyridine (THP), which is an attractive target for study due to the wide prevalence of piperidines in drugs. A series of d0–d8 tetrahydropyridine isotopomers were synthesized by the stepwise treatment of a tungsten-complexed pyridinium salt with H−/D− and H+/D+. The resulting decomplexed THP isotopomers and isotopologues were analyzed via molecular rotational resonance (MRR) spectroscopy, a highly sensitive technique that distinguishes isotopomers and isotopologues by their unique moments of inertia. In order to demonstrate the medicinal relevance of this approach, eight unique deuterated isotopologues of erythro-methylphenidate were also prepared.