Utilizing o-Quinone Methide Chemistry: Synthesis of d(9)-Ivacaftor

Lead time and cost are important factors for any pharmaceutical API. However, these issues become even more important when the drug substance contains an isotope such as deuterium, which has a natural abundance of only similar to 0.016% of all hydrogen. Fewer suppliers and logistical barriers both p...

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Bibliographic Details
Published inJournal of organic chemistry Vol. 85; no. 2; pp. 501 - 507
Main Authors Looker, Adam R., Wilde, Nathan, Ryan, Michael P., Roeper, Stefanie, Ye, Zhifeng, Lewandowski, Berenice L.
Format Journal Article
LanguageEnglish
Published WASHINGTON Amer Chemical Soc 17.01.2020
Subjects
Chemistry
Chemistry, Organic
Physical Sciences
Science & Technology
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Summary:Lead time and cost are important factors for any pharmaceutical API. However, these issues become even more important when the drug substance contains an isotope such as deuterium, which has a natural abundance of only similar to 0.016% of all hydrogen. Fewer suppliers and logistical barriers both play a role in driving up the cost. These factors can challenge the supply route used to manufacture d(9)-ivacaftor (17), requiring investigation into alternative routes. By adapting the work from Pettus et al., a synthetic approach utilizing a transient o-quinone methide allowed access to the deuterium-labeled o-tert-butylphenol moiety. This was developed and proven on pilot scale to significantly reduce the number of deuterated reagents used, leading to an overall reduction in cost by a factor of 10, while also providing the substantial benefit of applying prior process knowledge from the parent, nonisotopically enriched API ivacaftor (7).
ISSN:0022-3263
1520-6904
DOI:10.1021/acs.joc.9b02552