Ian D. Edmonds scite author profile

This work describes the optimization and scale-up of a Buchwald−Hartwig amination reaction for the preparation of a pharmaceutical intermediate. This C− N bond formation is challenged by the use of a chiral primary amine, which both adds cost and favors formation of biaryl byproducts. In order to develop a scalable process, a number of factors had to be investigated including catalyst selection and stoichiometry of the chiral amine. These all needed to be optimized while maintaining low palladium levels in the isolated product. The reaction was found to be most effective using Pd(dba) 2 with BINAP and Cs 2 CO 3 in THF. When executed on 2.5 kg scale, these conditions provided 2.06 kg of the desired product in 80% yield with only 73 ppm residual palladium. To date, this process has been successfully executed to produce more than 12 kg of compound (S)-3.

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Electrophilic amination of enolates with oxaziridines: effects of oxaziridine structure and reaction conditions

Armstrong

Edmonds

Swarbrick

et al. 2005

Tetrahedron

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Efficient nitrogen transfer from aldehyde-derived N-acyloxaziridines

Armstrong

Edmonds

Swarbrick

2003

Tetrahedron Letters

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Evolution of the Synthesis of AMPK Activators for the Treatment of Diabetic Nephropathy: From Three Preclinical Candidates to the Investigational New Drug PF-06409577

Smith

Kung

Shavnya

et al. 2018

Org. Process Res. Dev.

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Indole acids 1, 2, and 3 are potent 5′-adenosine monophosphate-activated protein kinase (AMPK) activators for the potential treatment of diabetic nephropathy. Compounds 1–3 were scaled to supply material for preclinical studies, and indole 3 was selected for advancement to first-in-human clinical trials and scaled to kilogram quantities. The progression of the synthesis strategy for these AMPK activators is described, as routes were selected for efficient structure–activity relationship generation and then improved for larger scales. The developed sequences employed practical isolations of intermediates and APIs, reproducible cross-coupling, hydrolysis, and other transformations, and enhanced safety and purity profiles and led to the production of 40–50 g of 1 and 2 and 2.4 kg of 3. Multiple polymorphs of 3 were observed, and conditions for the reproducible formation of crystalline material suitable for clinical development were identified.

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Heteroatom transfer to alkenes by N-protected-oxaziridines: new reaction pathways and products

Armstrong

Edmonds

Swarbrick

2005

Tetrahedron Letters

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Ian D. Edmonds

Kiloscale Buchwald–Hartwig Amination: Optimized Coupling of Base-Sensitive 6-Bromoisoquinoline-1-carbonitrile with (S)-3-Amino-2-methylpropan-1-ol

Electrophilic amination of enolates with oxaziridines: effects of oxaziridine structure and reaction conditions

Efficient nitrogen transfer from aldehyde-derived N-acyloxaziridines

Evolution of the Synthesis of AMPK Activators for the Treatment of Diabetic Nephropathy: From Three Preclinical Candidates to the Investigational New Drug PF-06409577

Heteroatom transfer to alkenes by N-protected-oxaziridines: new reaction pathways and products

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