Van Tong Luu scite author profile

Van Tong Luu

2Publications

27Citation Statements Received

88Citation Statements Given

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Novartis (Switzerland)

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Toward a Scalable Synthesis and Process for EMA401, Part III: Using an Engineered Phenylalanine Ammonia Lyase Enzyme to Synthesize a Non-natural Phenylalanine Derivative

Hardegger

Beney

Bixel

et al. 2020

Org. Process Res. Dev.

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A process using an engineered phenylalanine ammonia lyase (PAL) enzyme was developed as part of an alternative route to a key intermediate of olodanrigan (EMA401). In the first part of this report, the detailed results from a screening for the optimal reaction conditions are presented, followed by a discussion of several workup strategies investigated. In the PAL-catalyzed reaction, 70−80% conversion of a cinnamic acid derivative to the corresponding phenylalanine derivative could be achieved. The phenylalanine derivative was subsequently telescoped to a Pictet−Spengler reaction with formaldehyde, and the corresponding tetrahydroisoquinoline derivative was isolated in 60−70% yield with >99.9:0.1 er. On the basis of our screenings, carbonate/ carbamate-buffered ammonia at an NH 3 concentration of 9−10 M and pH 9.5−10.5 was found to be optimal. Enzyme loadings down to 2.5 wt % (E:S = 1:40 w/w) could be achieved, and substrate concentrations between 3−9 v/w (1.17−0.39 M) were found to be compatible with the reaction conditions. A temperature gradient was applied in the final process: a pre-equilibrium was established at 45 °C, before making use of the temperature dependence of the entropy term with subsequent cooling to 20 °C to achieve maximum conversion. This temperature gradient also allowed balancing of the enzyme stability (low at 45 °C, high at 20 °C) with the activity (high at 45 °C, low at 20 °C) in order to achieve optimal conversion (low at 45 °C, high at 20 °C). From the various workup operations investigated, a sequence consisting of denaturation of the enzyme, NH 3 /CO 2 removal by distillation, acidification, and telescoping to the subsequent Pictet−Spengler cyclization was our preferred approach. The process presented in this study is a more sustainable, shorter, and more cost-effective alternative to the previous process.

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Synthesis of a high specific activity methyl sulfone tritium isotopologue of fevipiprant (NVP‐QAW039)

Luu

Goujon

Meisterhans³

et al. 2015

Labelled Comp Radiopharmac

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The synthesis of a triple tritiated isotopologue of the CRTh2 antagonist NVP-QAW039 (fevipiprant) with a specific activity >3 TBq/mmol is described. Key to the high specific activity is the methylation of a bench-stable dimeric disulfide precursor that is in situ reduced to the corresponding thiol monomer and methylated with [(3)H3]MeONos having per se a high specific activity. The high specific activity of the tritiated active pharmaceutical ingredient obtained by a build-up approach is discussed in the light of the specific activity usually to be expected if hydrogen tritium exchange methods were applied.

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Van Tong Luu

Toward a Scalable Synthesis and Process for EMA401, Part III: Using an Engineered Phenylalanine Ammonia Lyase Enzyme to Synthesize a Non-natural Phenylalanine Derivative

Synthesis of a high specific activity methyl sulfone tritium isotopologue of fevipiprant (NVP‐QAW039)

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