Pinacolborane-assisted superacid organocatalysis enabled direct access to cytotoxic alkyl N-Cbz amines

Woo Hee Kim; Seon Bin Song; Da Eun Lee; Prithwish Goswami; You Kyoung Chung; Sohyeong Choi; Won Hee Jung; Sang Un Choi; Shinwon Ham; Yujin Oh; Ki Hyun Kim; Joonsuk Huh; Han Yong Bae

doi:10.1016/j.xcrp.2024.101786

Pinacolborane-assisted superacid organocatalysis enabled direct access to cytotoxic alkyl N-Cbz amines

Woo Hee Kim, Seon Bin Song, Da Eun Lee, Prithwish Goswami, You Kyoung Chung, Sohyeong Choi, Won Hee Jung, Sang Un Choi, Shinwon Ham, Yujin Oh, Ki Hyun Kim, Joonsuk Huh, Han Yong Bae

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

α-Secondary alkyl amines are structural motifs frequently encountered in a wide variety of natural products and pharmaceuticals. The N-benzyloxycarbonyl (Cbz) compound is a widely used precursor, acknowledged for its efficacy in implementing a masked amine strategy to access a privileged moiety. Although reductive amination is conducted as a crucial portion of the pharmaceutical industry, direct catalytic access to alkyl Cbz-amine is still rare due to the low reactivity of carbamate. Here, we show a superacid organocatalyst enabled direct access to bioactive Cbz-protected α-secondary alkyl amines using general ketones as the starting material. Through the highly selective and robust catalytic process, a wide substrate scope including drug precursor scaffolds in preparative scalability (up to >99% yield) with practical pharmaceutical syntheses is achieved. The obtained N-Cbz products are found to possess strong cytotoxicities in in vitro bioactivity evaluations, indicating their potential as promising candidates for new anticancer drug discovery.

Original language	English
Article number	101786
Journal	Cell Reports Physical Science
Volume	5
Issue number	2
DOIs	https://doi.org/10.1016/j.xcrp.2024.101786
Publication status	Published - 2024 Feb 21

Bibliographical note

Publisher Copyright:
© 2024 The Author(s)

All Science Journal Classification (ASJC) codes

General Chemistry
General Materials Science
General Engineering
General Energy
General Physics and Astronomy

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10.1016/j.xcrp.2024.101786

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title = "Pinacolborane-assisted superacid organocatalysis enabled direct access to cytotoxic alkyl N-Cbz amines",

abstract = "α-Secondary alkyl amines are structural motifs frequently encountered in a wide variety of natural products and pharmaceuticals. The N-benzyloxycarbonyl (Cbz) compound is a widely used precursor, acknowledged for its efficacy in implementing a masked amine strategy to access a privileged moiety. Although reductive amination is conducted as a crucial portion of the pharmaceutical industry, direct catalytic access to alkyl Cbz-amine is still rare due to the low reactivity of carbamate. Here, we show a superacid organocatalyst enabled direct access to bioactive Cbz-protected α-secondary alkyl amines using general ketones as the starting material. Through the highly selective and robust catalytic process, a wide substrate scope including drug precursor scaffolds in preparative scalability (up to >99% yield) with practical pharmaceutical syntheses is achieved. The obtained N-Cbz products are found to possess strong cytotoxicities in in vitro bioactivity evaluations, indicating their potential as promising candidates for new anticancer drug discovery.",

keywords = "Cbz-amine, bioactivity evaluation, hydroboration, organocatalysis, reductive amination, super Br{\o}nsted acid",

author = "Kim, {Woo Hee} and Song, {Seon Bin} and Lee, {Da Eun} and Prithwish Goswami and Chung, {You Kyoung} and Sohyeong Choi and Jung, {Won Hee} and Choi, {Sang Un} and Shinwon Ham and Yujin Oh and Kim, {Ki Hyun} and Joonsuk Huh and Bae, {Han Yong}",

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year = "2024",

month = feb,

day = "21",

doi = "10.1016/j.xcrp.2024.101786",

language = "English",

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TY - JOUR

T1 - Pinacolborane-assisted superacid organocatalysis enabled direct access to cytotoxic alkyl N-Cbz amines

AU - Kim, Woo Hee

AU - Song, Seon Bin

AU - Lee, Da Eun

AU - Goswami, Prithwish

AU - Chung, You Kyoung

AU - Choi, Sohyeong

AU - Jung, Won Hee

AU - Choi, Sang Un

AU - Ham, Shinwon

AU - Oh, Yujin

AU - Kim, Ki Hyun

AU - Huh, Joonsuk

AU - Bae, Han Yong

PY - 2024/2/21

Y1 - 2024/2/21

N2 - α-Secondary alkyl amines are structural motifs frequently encountered in a wide variety of natural products and pharmaceuticals. The N-benzyloxycarbonyl (Cbz) compound is a widely used precursor, acknowledged for its efficacy in implementing a masked amine strategy to access a privileged moiety. Although reductive amination is conducted as a crucial portion of the pharmaceutical industry, direct catalytic access to alkyl Cbz-amine is still rare due to the low reactivity of carbamate. Here, we show a superacid organocatalyst enabled direct access to bioactive Cbz-protected α-secondary alkyl amines using general ketones as the starting material. Through the highly selective and robust catalytic process, a wide substrate scope including drug precursor scaffolds in preparative scalability (up to >99% yield) with practical pharmaceutical syntheses is achieved. The obtained N-Cbz products are found to possess strong cytotoxicities in in vitro bioactivity evaluations, indicating their potential as promising candidates for new anticancer drug discovery.

AB - α-Secondary alkyl amines are structural motifs frequently encountered in a wide variety of natural products and pharmaceuticals. The N-benzyloxycarbonyl (Cbz) compound is a widely used precursor, acknowledged for its efficacy in implementing a masked amine strategy to access a privileged moiety. Although reductive amination is conducted as a crucial portion of the pharmaceutical industry, direct catalytic access to alkyl Cbz-amine is still rare due to the low reactivity of carbamate. Here, we show a superacid organocatalyst enabled direct access to bioactive Cbz-protected α-secondary alkyl amines using general ketones as the starting material. Through the highly selective and robust catalytic process, a wide substrate scope including drug precursor scaffolds in preparative scalability (up to >99% yield) with practical pharmaceutical syntheses is achieved. The obtained N-Cbz products are found to possess strong cytotoxicities in in vitro bioactivity evaluations, indicating their potential as promising candidates for new anticancer drug discovery.

KW - Cbz-amine

KW - bioactivity evaluation

KW - hydroboration

KW - organocatalysis

KW - reductive amination

KW - super Brønsted acid

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DO - 10.1016/j.xcrp.2024.101786

M3 - Article

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SN - 2666-3864

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JO - Cell Reports Physical Science

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ER -

Pinacolborane-assisted superacid organocatalysis enabled direct access to cytotoxic alkyl N-Cbz amines

Abstract

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