Development and Proof of Concept for a Large-Scale Photoredox Additive-Free Minisci Reaction

Graham, M. A.; Noonan, Gary M.; Cherryman, Janette H.; Douglas, James J.; Gonzalez, Miguel Coviello; Jackson, Lucinda V.; Leslie, Kevin; Liu, Zhiqing; McKinney, David; Munday, Rachel H.; Parsons, Chris D.; Whittaker, D.; Zhang, En-xuan; Zhang, Jun-wang

doi:10.1021/acs.oprd.0c00483

“…While the reaction had been optimized using laser-based reactor configurations, laser equipment was not available to Asymchem within the desired timeframe (1-2 months) so efforts were directed towards scaling the reaction using LEDs as the light source in conjunction with a plug flow reactor (PFR). [34][35][36][37] Asymchem had previous success scaling similar reactors using UV LEDs 10,11 and several different research groups have reported success using such reactions on scales up to 1 kg but greater scales were not known at the time but have been reported since. 34,37 After an LED-PFR system was selected, the focus became identifying stable feed solutions for the initial scale-up.…”

Section: Manuscriptmentioning

confidence: 99%

Commercial-Scale Visible-light Trifluoromethylation of 2-Chlorothiophenol using CF3I gas.

Harper

¹

,

Grieme

²

,

Towne

³

et al. 2021

Preprint

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Despite the growth of photoredox methods in academia, application of photoredox at scale in the pharmaceutical and fine chemical industries has been slow.In this report, a photoredox trifluoromethylation of a thiophenol was modified from the original literature report and the mechanism was investigated to define key scale-up parameters. The mechanistic insight was leveraged in the design and execution of two different reactor designs: an LED-based plug flow photoreactor as well as a laser-based continuous stirred tank photoreactor. In one of the first examples of commercial scale photoredox chemistry, the process was scaled to provide over 500 kilograms of the desired intermediate and amended to fully continuous manufacturing.

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“…Longer term it would be beneficial to have a more convergent approach with a higher yielding route". 32 During the development of our sulfonimidoyl SNAr method, AZ's process team disclosed an improved route (Scheme 3A, middle left) 33 and an attempt at a photocatalyzed flow approach via a Minisci reaction (Scheme 3A, middle right) 34 . The newly developed process route to 1 (Scheme 3A, middle left) addressed the issue of installing a cyclopropyl methyl sulfide moiety from 129 and 130 in a single step, while still relying on an enantioselective enzymatic oxidation.…”

Section: Synthetic Applicationsmentioning

confidence: 99%

Practical and Scalable Installation of Neglected S(VI) Functionality with Applications to the Enantiospecific Synthesis of Pharmaceuticals

Shultz¹,

Scattolin²,

Wojtas³

et al. 2021

Preprint

0

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<p>Sulfoximines and related sulfonimidoyl groups have been largely ignored for decades until their value was demonstrated in biological settings. The realization of their importance has ushered in a new wave of discovery and pharmaceutical applications. In attempts to remove the “neglected” description of the lesser-known S(VI) groups, a practical and modular approach for a-substituted heterocycles bearing sulfonimidoyl functional groups was developed. A variety of sulfoximines containing diverse functionality and complexity were rapidly introduced in an enantiospecific fashion with good to excellent yields. Pharmaceutically important heterocyclic scaffolds were shown to undergo the facile nucleophilic substitution, while sulfoximines, sulfonimidamides and sulfondiimines were all demonstrated to be compatible nucleophiles. The utility and practicality of the method was exhibited in target- and diversity-oriented syntheses of four sulfoximine-containing pharmaceuticals including ceralasertib, an ATR inhibitor currently in clinical trials. The introduction of underexplored sulfur functionality to common heterocyclic pharmacophores provides a practical platform for rapid analog development that is expected to aid future efforts in the discovery sciences.</p>

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“…Longer term it would be beneficial to have a more convergent approach with a higher yielding route". 32 During the development of our sulfonimidoyl SNAr method, AZ's process team disclosed an improved route (Figure 5A, middle left) 33 and an attempt at a photocatalyzed flow approach via a Minisci reaction (Figure 5A, middle right) 34 . The newly developed process route to 1 (Figure 5A, middle left) addressed the issue of installing a cyclopropyl methyl sulfide moiety from 129 and 130 in a single step, while still relying on an enantioselective enzymatic oxidation.…”

Section: Synthetic Applicationsmentioning

confidence: 99%

Practical and Scalable Installation of Neglected S(VI) Functionality with Applications to the Enantiospecific Synthesis of Pharmaceuticals

Shultz¹,

Scattolin²,

Wojtas³

et al. 2021

Preprint

0

View full text Add to dashboard Cite

<p>Sulfoximines and related sulfonimidoyl groups have been largely ignored for decades until their value was demonstrated in biological settings. The realization of their importance has ushered in a new wave of discovery and pharmaceutical applications. In attempts to remove the “neglected” description of the lesser-known S(VI) groups, a practical and modular approach for a-substituted heterocycles bearing sulfonimidoyl functional groups was developed. A variety of sulfoximines containing diverse functionality and complexity were rapidly introduced in an enantiospecific fashion with good to excellent yields. Pharmaceutically important heterocyclic scaffolds were shown to undergo the facile nucleophilic substitution, while sulfoximines, sulfonimidamides and sulfondiimines were all demonstrated to be compatible nucleophiles. The utility and practicality of the method was exhibited in target- and diversity-oriented syntheses of four sulfoximine-containing pharmaceuticals including ceralasertib, an ATR inhibitor currently in clinical trials. The introduction of underexplored sulfur functionality to common heterocyclic pharmacophores provides a practical platform for rapid analog development that is expected to aid future efforts in the discovery sciences.</p>

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Development and Proof of Concept for a Large-Scale Photoredox Additive-Free Minisci Reaction

Cited by 46 publications

References 42 publications

Commercial-Scale Visible-light Trifluoromethylation of 2-Chlorothiophenol using CF3I gas.

Commercial-Scale Visible-light Trifluoromethylation of 2-Chlorothiophenol using CF3I gas.

Practical and Scalable Installation of Neglected S(VI) Functionality with Applications to the Enantiospecific Synthesis of Pharmaceuticals

Practical and Scalable Installation of Neglected S(VI) Functionality with Applications to the Enantiospecific Synthesis of Pharmaceuticals

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