Scalable Synthesis of ABBV-105 Enabled by Suzuki Coupling with Low Pd Loading, Ru-Catalyzed Asymmetric Hydrogenation, and Acylation Using Impinging Jet
Benoit Cardinal-David*, Shashank Shekhar*, Eric M. Phillips, Elizabeth C. Swift, Brian Kotecki, Andrew R. Ickes, Gregory E. Storer, Daniel D. Caspi, Anuj Verma, Eric G. Moschetta, Daniel Tao, Westin H. Morrill, John R. Bellettini, Fredrik L. Nordstrom, Alessandra Mattei, Kirsten Springer, Haixiao Qiu, Jeffrey T. Bien, Onkar Manjrekar, Rodger F. Henry, Grier A. Wallace, Lisa Schaffter and Eric A. Voight,
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引用次数: 0
Abstract
Evolution of a synthetic process to prepare ABBV-105, a Bruton’s tyrosine kinase (BTK)-inhibitor, on multikilogram scale is described. The first-generation route utilized chiral resolution of the penultimate intermediate (7). Either Bartoli or Leimgruber–Batcho indole synthesis was used to prepare the key intermediate, indole boronate ester (23). As the demand for the API increased, the first-generation route was found to be low-yielding and expensive. It required column chromatography, had multiple alerting structures from the mutagenic impurity assessment, and suffered from lack of robustness. In the second-generation route a novel Ru-catalyzed asymmetric hydrogenation of 1,2,5,6-tetrahydropyridine (21) was developed to establish the stereocenter. Compound 21 was accessed via Suzuki coupling of 23, prepared by Friedel–Crafts acylation, with vinyl bromide (24) in the presence of very low loading of a Pd catalyst (0.15 mol % Pd). Finally, the penultimate intermediate (7) was coupled with acryloyl chloride using an impinging jet to prepare the API. Detailed kinetic and mechanistic work was conducted to control the persistent impurities formed in the API step. The second-generation route was robust, chromatography-free and high-yielding with low mutagenic liability.
期刊介绍:
The journal Organic Process Research & Development serves as a communication tool between industrial chemists and chemists working in universities and research institutes. As such, it reports original work from the broad field of industrial process chemistry but also presents academic results that are relevant, or potentially relevant, to industrial applications. Process chemistry is the science that enables the safe, environmentally benign and ultimately economical manufacturing of organic compounds that are required in larger amounts to help address the needs of society. Consequently, the Journal encompasses every aspect of organic chemistry, including all aspects of catalysis, synthetic methodology development and synthetic strategy exploration, but also includes aspects from analytical and solid-state chemistry and chemical engineering, such as work-up tools,process safety, or flow-chemistry. The goal of development and optimization of chemical reactions and processes is their transfer to a larger scale; original work describing such studies and the actual implementation on scale is highly relevant to the journal. However, studies on new developments from either industry, research institutes or academia that have not yet been demonstrated on scale, but where an industrial utility can be expected and where the study has addressed important prerequisites for a scale-up and has given confidence into the reliability and practicality of the chemistry, also serve the mission of OPR&D as a communication tool between the different contributors to the field.