Rhodium-catalyzed cyclohydrocarbonylation approach to the syntheses of enantiopure homokainoids

Wen Hua Chiou; Angèle Schoenfelder; Liang Sun; André Mann; Iwao Ojima

doi:10.1021/jo070942n

Rhodium-catalyzed cyclohydrocarbonylation approach to the syntheses of enantiopure homokainoids

Wen Hua Chiou
, Angèle Schoenfelder
, Liang Sun
, André Mann
, Iwao Ojima

Chemistry

Stony Brook University

Stony Brook University
National Chung Hsing University
CNRS

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

21 Scopus citations

Abstract

(Chemical Equation Presented) Homologues of kainic acid, a naturally occurring potent glutamate receptor agonist, were designed based on a rigidified pipecolinoglutamic acid structure and can be regarded as homokainoids for their potential activities in the central nervous system. These novel homokainoids in an enantiomerically pure form were synthesized from enantiopure (R)- and (S)-Garner's aldehyde, featuring (i) the highly diastereose-lective addition of alkenylcuprates to the acrylate intermediates and (ii) the Rh-catalyzed cyclohydrocarbonylation of homoallylic amine intermediates to construct the functionalized piperidine moiety in the key steps. For the introduction of a substituent at the 4- or 5-position of pipecolinoglutamic acid, a few different strategies were used, which successfully led to the formation of enantiopure homokainoids.

Original language	English
Pages (from-to)	9418-9425
Number of pages	8
Journal	Journal of Organic Chemistry
Volume	72
Issue number	25
DOIs	https://doi.org/10.1021/jo070942n
State	Published - Dec 7 2007

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abstract = "(Chemical Equation Presented) Homologues of kainic acid, a naturally occurring potent glutamate receptor agonist, were designed based on a rigidified pipecolinoglutamic acid structure and can be regarded as homokainoids for their potential activities in the central nervous system. These novel homokainoids in an enantiomerically pure form were synthesized from enantiopure (R)- and (S)-Garner's aldehyde, featuring (i) the highly diastereose-lective addition of alkenylcuprates to the acrylate intermediates and (ii) the Rh-catalyzed cyclohydrocarbonylation of homoallylic amine intermediates to construct the functionalized piperidine moiety in the key steps. For the introduction of a substituent at the 4- or 5-position of pipecolinoglutamic acid, a few different strategies were used, which successfully led to the formation of enantiopure homokainoids.",

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T1 - Rhodium-catalyzed cyclohydrocarbonylation approach to the syntheses of enantiopure homokainoids

AU - Chiou, Wen Hua

AU - Schoenfelder, Angèle

AU - Sun, Liang

AU - Mann, André

AU - Ojima, Iwao

PY - 2007/12/7

Y1 - 2007/12/7

N2 - (Chemical Equation Presented) Homologues of kainic acid, a naturally occurring potent glutamate receptor agonist, were designed based on a rigidified pipecolinoglutamic acid structure and can be regarded as homokainoids for their potential activities in the central nervous system. These novel homokainoids in an enantiomerically pure form were synthesized from enantiopure (R)- and (S)-Garner's aldehyde, featuring (i) the highly diastereose-lective addition of alkenylcuprates to the acrylate intermediates and (ii) the Rh-catalyzed cyclohydrocarbonylation of homoallylic amine intermediates to construct the functionalized piperidine moiety in the key steps. For the introduction of a substituent at the 4- or 5-position of pipecolinoglutamic acid, a few different strategies were used, which successfully led to the formation of enantiopure homokainoids.

AB - (Chemical Equation Presented) Homologues of kainic acid, a naturally occurring potent glutamate receptor agonist, were designed based on a rigidified pipecolinoglutamic acid structure and can be regarded as homokainoids for their potential activities in the central nervous system. These novel homokainoids in an enantiomerically pure form were synthesized from enantiopure (R)- and (S)-Garner's aldehyde, featuring (i) the highly diastereose-lective addition of alkenylcuprates to the acrylate intermediates and (ii) the Rh-catalyzed cyclohydrocarbonylation of homoallylic amine intermediates to construct the functionalized piperidine moiety in the key steps. For the introduction of a substituent at the 4- or 5-position of pipecolinoglutamic acid, a few different strategies were used, which successfully led to the formation of enantiopure homokainoids.

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Rhodium-catalyzed cyclohydrocarbonylation approach to the syntheses of enantiopure homokainoids

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