Scalable Asymmetric Synthesis of the All Cis Triamino Cyclohexane Core of BMS-813160.
Thomas E La CruzFrancisco Gonzalez BobesMartin D EastgateChris SfouggatakisBin ZhengNathaniel KoppYi XiaoYu FanKay A GalindoCharles PathiranaMichael A GalellaJoerg DeerbergPublished in: The Journal of organic chemistry (2021)
BMS-813160 is a pharmaceutical entity currently in development at Bristol Myers Squibb. Its defining structural feature is a unique chiral all cis triamino cyclohexane core. Medicinal and process chemistry groups at BMS have previously published synthesis strategies for chemotypes similar to the target molecule, but a streamlined approach amenable for longer-term supply was necessary. A new synthetic route was conceptualized, experimentally investigated, and determined to meet the criteria for efficiency that addressed key limitations of previous approaches. Adopting/optimizing the Trost asymmetric allylic amination desymmetrization methodology was a key tool used to produce a synthesis intermediate with high optical purity. In addition, developing a tandem Mannich-aza-Michael reaction to obviate the need for a Curtis/acylation sequence and a novel reductive amination/thermal lactamization to circumvent Freidinger-type pyrrolidone preparation are some of the synthesis improvements that enabled access to the target molecule to fulfill long-term supply requirements.