Michael S. Ashwood scite author profile

A practical asymmetric synthesis of the estrogen receptor beta selective agonist (7β-9aβ)-1,4-dichloro-2-hydroxygibba-1(10a),2,4,4b-tetraen-6-one (1), proceeding by way of six isolated intermediates and without recourse to chromatography, is described. Highlights of the process route developed are two chemoselective chlorinations, a lithiated hydrazone alkylation and an asymmetric Michael addition of indanone 11 to methyl vinyl ketone (using 15 mol % of cinchonine-derived catalyst 20g) to set the all-carbon quaternary asymmetric stereocenter. The challenges addressed in scaling the latter heterogeneous biphasic phase transfer reaction to 44 mol (14 kg) scale are discussed in detail. Overall, the chemistry developed has been used to prepare >6 kg of drug candidate 1 in 18% overall yield and with >99% ee.

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Practical Asymmetric Synthesis of Aprepitant, a Potent Human NK-1 Receptor Antagonist, via a Stereoselective Lewis Acid-Catalyzed Trans Acetalization Reaction

Zhao¹,

McNamara²,

Ho³

et al. 2002

J. Org. Chem.

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A streamlined and high-yielding synthesis of aprepitant (1), a potent substance P (SP) receptor antagonist, is described. The enantiopure oxazinone 16 starting material was synthesized via a novel crystallization-induced dynamic resolution process. Conversion of 16 to the penultimate intermediate cis-sec-amine 9 features a highly stereoselective Lewis acid-catalyzed trans acetalization of chiral alcohol 3 with trichloroacetimidate 18 followed by inversion of the adjacent chiral center on the morpholine ring. The six-step process for the synthesis of 9 was accomplished in extremely high overall yield (81%) and with only two isolations.

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Stereoselective double ring closing metathesis reactions in the synthesis of spirocyclic compounds

Wallace

Cowden

Kennedy

et al. 2000

Tetrahedron Letters

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Stereocontrolled Preparation of a Nonpeptidal (−)-Spirobicyclic NK-1 Receptor Antagonist

Maligres¹,

Waters²,

Lee³

et al. 2002

J. Org. Chem.

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The synthesis of a spirobicyclic NK-1 receptor (Substance-P) antagonist 1 antipode is described. Retrosynthetic analysis reveals an allylic halide A bearing the cyclopropoxy-substituted aryl group and a 2-phenyl-3-piperidone B. The stereochemistry in the spirobicyclic system bearing three chiral centers is initially set via a highly diastereoselective zinc-mediated coupling of the allylic bromide 23 to the optically active ketopiperidine 3. The remaining benzylic asymmetric center is set by a diastereoselective hydroboration followed by cyclization to the spirobicyclic system.

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