Total Synthesis of Isodaphlongamine H by Iridium-Catalyzed Reductive [3 + 2] Cycloaddition of N-Hydroxylactam

Sora Iwamoto; Reki Nakano; Keiji Sasaki; Shoichiro Kobayashi; Yuki Taira; Koya Takei; Reiji Kawakita; Ayako Tokuyama; Haruto Nakamura; Manato Tomoike; Ryota Kawahara; Akari Murase; Siro Simizu; Noritaka Chida; Toshitaka Okamura; Takaaki Sato

doi:10.1002/anie.202508062

Total Synthesis of Isodaphlongamine H by Iridium-Catalyzed Reductive [3 + 2] Cycloaddition of N-Hydroxylactam

Sora Iwamoto, Reki Nakano, Keiji Sasaki, Shoichiro Kobayashi, Yuki Taira, Koya Takei, Reiji Kawakita, Ayako Tokuyama, Haruto Nakamura, Manato Tomoike, Ryota Kawahara, Akari Murase, Siro Simizu, Noritaka Chida, Toshitaka Okamura, Takaaki Sato

Department of Applied Chemistry

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

Abstract

The total synthesis of isodaphlongamine H based on a lactam strategy, which enables quick access to complex cyclic amines, is described. The strategy begins with alkylation of a chiral lactam and subsequent N-oxidation via an imino ether to afford the N-hydroxylactam. For the key transformation to functionalize the amide carbonyl, an iridium-catalyzed reductive [3 + 2] cycloaddition of the N-hydroxylactam provides a tricyclic isoxazolidine in a one-pot process. After the coupling reaction with an allylic silane fragment, the total synthesis is accomplished through intramolecular Hosomi–Sakurai allylation to construct a pentacyclic core. The deoxygenated pentacyclic intermediate shows higher cytotoxicity against HeLa and U937 cell lines than isodaphlongamine H, and might become a lead compound for further biological study.

Original language	English
Article number	e202508062
Journal	Angewandte Chemie - International Edition
Volume	64
Issue number	29
DOIs	https://doi.org/10.1002/anie.202508062
Publication status	Published - 2025 Jul 14

Keywords

Amide
Daphniphyllum alkaloids
Iridium catalyst
Nitrone
Total synthesis

ASJC Scopus subject areas

Catalysis
General Chemistry

Access to Document

10.1002/anie.202508062

Cite this

Iwamoto, S., Nakano, R., Sasaki, K., Kobayashi, S., Taira, Y., Takei, K., Kawakita, R., Tokuyama, A., Nakamura, H., Tomoike, M., Kawahara, R., Murase, A., Simizu, S., Chida, N., Okamura, T., & Sato, T. (2025). Total Synthesis of Isodaphlongamine H by Iridium-Catalyzed Reductive [3 + 2] Cycloaddition of N-Hydroxylactam. Angewandte Chemie - International Edition, 64(29), Article e202508062. https://doi.org/10.1002/anie.202508062

Iwamoto, S, Nakano, R, Sasaki, K, Kobayashi, S, Taira, Y, Takei, K, Kawakita, R, Tokuyama, A, Nakamura, H, Tomoike, M, Kawahara, R, Murase, A, Simizu, S, Chida, N, Okamura, T & Sato, T 2025, 'Total Synthesis of Isodaphlongamine H by Iridium-Catalyzed Reductive [3 + 2] Cycloaddition of N-Hydroxylactam', Angewandte Chemie - International Edition, vol. 64, no. 29, e202508062. https://doi.org/10.1002/anie.202508062

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abstract = "The total synthesis of isodaphlongamine H based on a lactam strategy, which enables quick access to complex cyclic amines, is described. The strategy begins with alkylation of a chiral lactam and subsequent N-oxidation via an imino ether to afford the N-hydroxylactam. For the key transformation to functionalize the amide carbonyl, an iridium-catalyzed reductive [3 + 2] cycloaddition of the N-hydroxylactam provides a tricyclic isoxazolidine in a one-pot process. After the coupling reaction with an allylic silane fragment, the total synthesis is accomplished through intramolecular Hosomi–Sakurai allylation to construct a pentacyclic core. The deoxygenated pentacyclic intermediate shows higher cytotoxicity against HeLa and U937 cell lines than isodaphlongamine H, and might become a lead compound for further biological study.",

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AU - Kobayashi, Shoichiro

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AU - Nakamura, Haruto

AU - Tomoike, Manato

AU - Kawahara, Ryota

AU - Murase, Akari

AU - Simizu, Siro

AU - Chida, Noritaka

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AU - Sato, Takaaki

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N2 - The total synthesis of isodaphlongamine H based on a lactam strategy, which enables quick access to complex cyclic amines, is described. The strategy begins with alkylation of a chiral lactam and subsequent N-oxidation via an imino ether to afford the N-hydroxylactam. For the key transformation to functionalize the amide carbonyl, an iridium-catalyzed reductive [3 + 2] cycloaddition of the N-hydroxylactam provides a tricyclic isoxazolidine in a one-pot process. After the coupling reaction with an allylic silane fragment, the total synthesis is accomplished through intramolecular Hosomi–Sakurai allylation to construct a pentacyclic core. The deoxygenated pentacyclic intermediate shows higher cytotoxicity against HeLa and U937 cell lines than isodaphlongamine H, and might become a lead compound for further biological study.

AB - The total synthesis of isodaphlongamine H based on a lactam strategy, which enables quick access to complex cyclic amines, is described. The strategy begins with alkylation of a chiral lactam and subsequent N-oxidation via an imino ether to afford the N-hydroxylactam. For the key transformation to functionalize the amide carbonyl, an iridium-catalyzed reductive [3 + 2] cycloaddition of the N-hydroxylactam provides a tricyclic isoxazolidine in a one-pot process. After the coupling reaction with an allylic silane fragment, the total synthesis is accomplished through intramolecular Hosomi–Sakurai allylation to construct a pentacyclic core. The deoxygenated pentacyclic intermediate shows higher cytotoxicity against HeLa and U937 cell lines than isodaphlongamine H, and might become a lead compound for further biological study.

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