Formal synthesis of optically active ingenol via ring-closing olefin metathesis

Kazushi Watanabe; Yuto Suzuki; Kenta Aoki; Akira Sakakura; Kiyotake Suenaga; Hideo Kigoshi

doi:10.1021/jo048833l

Formal synthesis of optically active ingenol via ring-closing olefin metathesis

Kazushi Watanabe, Yuto Suzuki, Kenta Aoki, Akira Sakakura, Kiyotake Suenaga, Hideo Kigoshi

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

45 Citations (Scopus)

Abstract

The construction of strained carbon skeletons by ring-closing olefin metathesis (RCM) was investigated. With well-designed diene 4, RCM was found to be applicable to the formation of a highly strained inside-outside bicyclo[4.4.1]undecane skeleton of ingenol, a bioactive diterpenoid, and formal total synthesis of optically active ingenol (1) was achieved. The key features of this synthesis are construction of an A-ring by spirocyclization of the ketone with an allylic chloride unit, 26, and ring closure of a B-ring by olefin metathesis. Starting from Funk's keto ester 6, the key intermediate aldehyde 9 in Winkler's total synthesis was synthesized in eight steps in 12.5% overall yield. This strategy of direct cyclization of a strained inside-outside skeleton provided the first easy access to optically active ingenol.

Original language	English
Pages (from-to)	7802-7808
Number of pages	7
Journal	Journal of Organic Chemistry
Volume	69
Issue number	23
DOIs	https://doi.org/10.1021/jo048833l
Publication status	Published - Nov 12 2004
Externally published	Yes

ASJC Scopus subject areas

Organic Chemistry

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10.1021/jo048833l

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title = "Formal synthesis of optically active ingenol via ring-closing olefin metathesis",

abstract = "The construction of strained carbon skeletons by ring-closing olefin metathesis (RCM) was investigated. With well-designed diene 4, RCM was found to be applicable to the formation of a highly strained inside-outside bicyclo[4.4.1]undecane skeleton of ingenol, a bioactive diterpenoid, and formal total synthesis of optically active ingenol (1) was achieved. The key features of this synthesis are construction of an A-ring by spirocyclization of the ketone with an allylic chloride unit, 26, and ring closure of a B-ring by olefin metathesis. Starting from Funk's keto ester 6, the key intermediate aldehyde 9 in Winkler's total synthesis was synthesized in eight steps in 12.5% overall yield. This strategy of direct cyclization of a strained inside-outside skeleton provided the first easy access to optically active ingenol.",

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T1 - Formal synthesis of optically active ingenol via ring-closing olefin metathesis

AU - Watanabe, Kazushi

AU - Suzuki, Yuto

AU - Aoki, Kenta

AU - Sakakura, Akira

AU - Suenaga, Kiyotake

AU - Kigoshi, Hideo

PY - 2004/11/12

Y1 - 2004/11/12

N2 - The construction of strained carbon skeletons by ring-closing olefin metathesis (RCM) was investigated. With well-designed diene 4, RCM was found to be applicable to the formation of a highly strained inside-outside bicyclo[4.4.1]undecane skeleton of ingenol, a bioactive diterpenoid, and formal total synthesis of optically active ingenol (1) was achieved. The key features of this synthesis are construction of an A-ring by spirocyclization of the ketone with an allylic chloride unit, 26, and ring closure of a B-ring by olefin metathesis. Starting from Funk's keto ester 6, the key intermediate aldehyde 9 in Winkler's total synthesis was synthesized in eight steps in 12.5% overall yield. This strategy of direct cyclization of a strained inside-outside skeleton provided the first easy access to optically active ingenol.

AB - The construction of strained carbon skeletons by ring-closing olefin metathesis (RCM) was investigated. With well-designed diene 4, RCM was found to be applicable to the formation of a highly strained inside-outside bicyclo[4.4.1]undecane skeleton of ingenol, a bioactive diterpenoid, and formal total synthesis of optically active ingenol (1) was achieved. The key features of this synthesis are construction of an A-ring by spirocyclization of the ketone with an allylic chloride unit, 26, and ring closure of a B-ring by olefin metathesis. Starting from Funk's keto ester 6, the key intermediate aldehyde 9 in Winkler's total synthesis was synthesized in eight steps in 12.5% overall yield. This strategy of direct cyclization of a strained inside-outside skeleton provided the first easy access to optically active ingenol.

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Formal synthesis of optically active ingenol via ring-closing olefin metathesis

Abstract

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