Continuous Process Improvement in the Manufacture of Carfilzomib, Part 2: An Improved Process for Synthesis of the Epoxyketone Warhead
Version 2 2020-04-03, 18:05
Version 1 2020-04-02, 15:06
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posted on 2020-04-03, 18:05 authored by Matthew G. Beaver, Xianqing Shi, Jan Riedel, Parth Patel, Alicia Zeng, Michael T. Corbett, Jo Anna Robinson, Andrew T. Parsons, Sheng Cui, Kyle Baucom, Michael A. Lovette, Elçin Içten, Derek B. Brown, Ayman Allian, Tawnya G. Flick, Wendy Chen, Ning Yang, Shawn D. WalkerThe
development and kilogram-scale demonstration of an improved
process for the synthesis of the epoxyketone warhead of carfilzomib
is described. Critical to the success of this process was: (1) development
of a scalable asymmetric epoxidation protocol; (2) identification
of a crystalline intermediate with improved physical properties for
isolation; (3) discovery and optimization of epimerization conditions
to set the target stereochemistry; and (4) introduction of a seeded-bed
coaddition crystallization to facilitate isolation of the final low-melting
target. The results of kilogram-scale demonstration runs are shared,
including details of a continuous process for the safe execution of
an exothermic Barbier-type Grignard process.
