An enantioselective synthesis of the CGRP antagonist BMS-846372, amenable to large scale preparation, is presented. This new synthesis showcases a chemo- and enantioselective reduction of a cyclohepta[b]pyridine-5,9-dione as well as a Pd-catalyzed alpha-arylation reaction to form the key carbon-carbon bond and set the absolute and relative stereochemistry.
The
development of an improved short and efficient commercial synthesis
of the JAK2 inhibitor, a complex pyrrolopyridine, BMS-911543, is described.
During the discovery and development of this synthesis, a Pd-catalyzed
C–H functionalization was invented which enabled the rapid
union of the key pyrrole and imidazole fragments. The synthesis of
this complex, nitrogen-rich heterocycle was accomplished in only six
steps (longest linear sequence) from readily available materials.
An efficient route to two functionalized 2-aryl-5H-chromeno [2,3-b]pyridines (azaxanthenes) is reported. The addition of lithiated 2,6-dichloropyridine to salicylaldehyde followed by cyclization was a key process improvement identified for the formation of the azaxanthene core. Further elaboration of 2-chloro-5H-chromeno[2,3-b]pyridin-5-ol at the 5 position was accomplished via Lewis acid-catalyzed coupling with commercially available ((1-methoxy-2-methylprop-1-en-1-yl)oxy)trimethylsilane. A partial classical resolution coupled with a preparative chiral supercritical fluid chromatography (SFC) separation was used to isolate the desired enantiomer of the azaxanthene carboxylic acid that is a common intermediate for both compounds 1 and 2. Suzuki−Miyaura cross-coupling with appropriately substituted boronic acids, followed by condensation with 2-amino-1,3,4-thiadiazole, provided the target compounds with an overall yield of approximately 10%. The use of stable, amorphous materials to support clinical comparison of functionalized azaxanthenes 1 and 2 is also discussed.
[reaction: see text] A zirconocene-mediated ring contraction of 4-vinylfuranosides generated either from d-arabinose or d-glucose is followed by sequential oxidation to the ketone and alkynyl Grignard addition. The resulting cis-cyclobutanediols are subjected in turn to thermal rearrangement and intramolecular oxymercuration-demercuration. The regiochemistry of the final ring closure is controlled by the nature of R.
Two approaches to a 1-aryl-4-trifluoromethyltriazole are described. Initially, a late-stage trifluoromethylation of the corresponding 1-aryl-4-iodotriazole using methyl fluorosulfonyldifluoroacetate (MDFA) was employed. However, the reaction was fraught with several safety and operational challenges, primarily due to the evolution of ∼33 equiv of gas per equiv of substrate. While some of these challenges were either addressed or mitigated through operations in plug flow, the process remained low yielding and suboptimal. Subsequently, a more convergent, longer-term route involving a Cu-mediated decarboxylative Click reaction was developed.
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