Development and optimization of a continuous flow ester reduction with LiAlH4 in the synthesis of a key intermediate for a PI3Kδ inhibitor (CPL302415)

Stanisław Michałek; Anna M. Maj; Lidia Gurba-Bryśkiewicz; Wioleta Maruszak; Marcin Zagozda; Zbigniew Ochal; Krzysztof Dubiel; Maciej Wieczorek

doi:10.1039/D2RE00561A

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Development and optimization of a continuous flow ester reduction with LiAlH₄ in the synthesis of a key intermediate for a PI3Kδ inhibitor (CPL302415)†

Stanisław Michałek,

*^ab Anna M. Maj,

*^a Lidia Gurba-Bryśkiewicz,

^a Wioleta Maruszak,

^a Marcin Zagozda,^a Zbigniew Ochal,^b Krzysztof Dubiel^a and Maciej Wieczorek^a

Author affiliations

* Corresponding authors

^a Celon Pharma S.A., ul. Marymoncka 15, 05-152 Kazuń Nowy, Poland
E-mail: stanislaw.michalek@celonpharma.com, anna.maj@celonpharma.com

^b Faculty of Chemistry, Warsaw University of Technology, ul. Noakowskiego 3, 00-664 Warsaw, Poland

Abstract

Herein we present the development of highly productive and chemoselective ester reduction in a continuous flow system with lithium aluminum hydride (LAH) at mild temperature. The reaction was utilized for the reduction of an important precursor in the synthesis of a new PI3Kδ inhibitor (CPL302415), which is now under evaluation for the treatment of systemic lupus erythematosus. The productivity and the selectivity of the flow LAH reduction were compared with those of batch reaction, as well those of Ru-catalyzed ester reduction. The reaction has a high space–time yield (1130 kg h⁻¹ m⁻³). The process was optimized using a design of experiments (DoE) approach.

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Article information

DOI: https://doi.org/10.1039/D2RE00561A
Article type: Paper
Submitted: 21 Dec 2022
Accepted: 07 Feb 2023
First published: 09 Feb 2023

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React. Chem. Eng., 2023,8, 1117-1124

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Development and optimization of a continuous flow ester reduction with LiAlH₄ in the synthesis of a key intermediate for a PI3Kδ inhibitor (CPL302415)

S. Michałek, A. M. Maj, L. Gurba-Bryśkiewicz, W. Maruszak, M. Zagozda, Z. Ochal, K. Dubiel and M. Wieczorek, React. Chem. Eng., 2023, 8, 1117 DOI: 10.1039/D2RE00561A

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