Seeking Chemocatalytic and Biocatalytic Solutions - Pharmaceutical Technology

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Seeking Chemocatalytic and Biocatalytic Solutions
Advances in palladium-catalyzed hydrogenation, visible-light photocatalysis, and chemocatalyisis for heterocycles are some recent developments.


Pharmaceutical Technology
Volume 36, Issue 5, pp. 56-60

Advances in biocatalysis

Codexis, a biocatalysis company, reported last month on its work with Merck & Co. for developing an enzyme-based production method for a key intermediate in the production of boceprevir, the API in Merck's Victrelis, a drug to treat hepatitis C. The companies reported on a chemoenzymatic process for manufacturing the boceprevir bicyclic proline intermediate based on amine oxidase-catalyzed desymmetrization. The key structural feature in boceprevir is the bicyclic proline moiety, which during development stages, was produced by a classical resolution. As the drug candidate advanced, Codexis and Schering–Plough (now Merck) jointly developed a chemoenzymatic asymmetric synthesis where the net reaction was an oxidative Strecker reaction. The key part of the reaction sequence is an enzymatic oxidative desymmetrization of a prochiral amine substrate (4).

According to Codexis, the new method increased chemical intermediate yield 150% over the previous process. It also reduced raw material use by 60%, water use by 61%, and overall process waste by 63%. Codexis used its proprietary CodeEvolver directed evolution technology to develop the custom enzyme for use in the commercial-scale manufacturing of the boceprevir intermediate.

Codexis had earlier partnered with Merck & Co. for another biocatalytic route. In 2010, Merck and Codexis reported on the biocatalytic asymmetric synthesis of chiral amines from ketones in the manufacture of sitagliptin, the API in Merck's antidiabetes drug Januvia. The biocatalytic process replaced a rhodium-catalyzed asymmetric enamine hydrogenation for the large-scale manufacture of sitagliptin. The researchers started from an (R)-selective transaminase that showed slight activity on a smaller truncated methyl ketone analogue of the sitagliptin ketone. After creating this transaminase, which had marginal activity for the synthesis of the chiral amine, they further engineered the enzyme through directed evolution to optimize its use for large-scale manufacturing (5–8).

The initial (R)-selective transaminase was a homologue of an enzyme from Arthrobacter sp., which previously was used for (R)-specific transamination of methyl ketones and small cyclic ketones. For the sitagliptin synthesis, the researchers generated a structural homology model of this transaminase and found that the enzyme would not bind to the prositagliptin ketone because of steric interference and potentially undesired interactions. The evolved transaminase was a successful biocatalyst that synthesized the chiral amines that previously were accessible only through resolution (5–8).

Codexis and Merck were recognized in 2010 with an Environmental Protection Agency's Presidential Green Chemistry Challenge Award, an annual recognition of advances in green chemistry. Codexis also submitted for consideration in 2010 and 2011 a biocatalytic route for making simvastatin, the active ingredient in Merck & Co.'s anticholesterol drug Zocor, which is now off patent (5, 8, 9).

For the simvastatin route, Codexis licensed technology from Yi Tang, professor in the Department of Chemical and Biomolecular Engineering at the University of California at Los Angeles. The previous synthetic routes to simvastatin involved converting lovastatin into simvastatin by adding a methyl group that required protecting and then deprotecting other functionalities in the lovastatin molecule in a multistep synthesis. In the first route, lovastatin was hydrolyzed to the triol, monacolin J, followed by protection with selective silylation, esterification with dimethyl butyryl chloride, and deprotection. The second route involved protecting the carboxylic acid and alcohol functionalities, methylating the C2' carbon with methyl iodide, and deprotecting the product. These routes were inefficient because they produced less than 70% overall yield and were mass-intensive due to protection and deprotection (5, 8).

The route developed by Tang and his group circumvented protection and deprotection and resulted in greater atom economy, reduced waste, and overall less hazardous reaction conditions. First, they cloned LovD, a natural acyltransferase produced by Aspergillus terreus that is involved in synthesizing lovastatin and that can accept nonnatural acyl donors. Recognizing that LovD might be a type of simvastatin synthase and a starting point for creating a new biocatalytic process, they evolved the enzyme toward commercial utility (5, 8–10). Codexis licensed Tang's technology, engineered the enzyme further, and optimized the process for pilot-scale simvastatin manufacture.

Codexis is an example of a firm specializing in biocatalysis. Another is evocatal GmbH, which was founded in 2006 as a spin-off of the Institute for Molecular Enzyme Technology at the University of Düsseldorf in the Research Center Jülich. Last November, evocatal issued a carbon–carbon coupling kit using thiamine pyrophosphate-dependent (TPP) enzymes to produce enantiopure 2-hydroxy-ketones, an important intermediate class for pharmaceutical syntheses. The kit includes seven different TPP-enzymes with the relevant cofactor.

Patricia Van Arnum is executive editor at Pharmaceutical Technology, 485 Route One South, Bldg F, First Floor, Iselin, NJ 08830 tel. 732.346.3072,
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