posted on 2022-08-08, 05:20authored byStefan G. Koenig, Rémy Angelaud, Christopher M. Crittenden, Kenji Kurita, David J. Russell, Jean-Francois Marcoux, Thomas Matt, Francis Gosselin
The synthetic strategies for two distinct but related
linker-toxins 1 and 2 were reconfigured
in order to devise
an efficient and unified supply chain for both compounds. This involved
establishing novel chemical routes to crystalline, monomeric building
blocks that could be combined in a unique way for each molecular target.
This streamlined approach avoided challenging desymmetrization efforts
en route to each target molecule as well as a drastically reduced
need for multiple chromatographic purifications throughout the syntheses.
In the final instance, the shared-building-block concept enabled access
to advanced intermediates from which the optimized endgames were implemented,
ultimately resulting in robust synthetic processes to both 1 and 2.