A Modular and Diastereoselective 5+1 Cyclization Approach to N-(Hetero)Aryl Piperidines

Matthew A. Larsen; Elisabeth T. Hennessy; Madeleine C. Deem; Yu-hong Lam; Josep Sauri; Aaron C. Sather

doi:10.1021/jacs.9b13114

A Modular and Diastereoselective 5+1 Cyclization Approach to N-(Hetero)Aryl Piperidines

Matthew A. Larsen
, Elisabeth T. Hennessy
, Madeleine C. Deem
, Yu-hong Lam
, Josep Sauri
, Aaron C. Sather

Research output: Indexed journal article › Article › peer-review

27 Citations (Scopus)

Abstract

A new general de novo synthesis of pharmaceutically important N-(hetero)aryl piperidines is reported. This protocol uses a robustly diastereoselective reductive amination/aza-Michael reaction sequence to achieve rapid construction of complex polysubstituted ring systems starting from widely available heterocyclic amine nucleophiles and carbonyl electrophiles. Notably, the diastereoselectivity of this process is enhanced by the presence of water, and DFT calculations support a stereochemical model involving a facially selective protonation of a water-coordinated enol intermediate.

Original language	English
Pages (from-to)	726-732
Number of pages	7
Journal	Journal of the American Chemical Society
Volume	142
Issue number	2
DOIs	https://doi.org/10.1021/jacs.9b13114
Publication status	Published - 15 Jan 2020
Externally published	Yes

Keywords

C-h functionalization
Aza-michael reaction
Enantioselective synthesis
Potent
Stereochemistry
Construction
Protonation
Discovery
Aldehydes
Ketones

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10.1021/jacs.9b13114

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abstract = "A new general de novo synthesis of pharmaceutically important N-(hetero)aryl piperidines is reported. This protocol uses a robustly diastereoselective reductive amination/aza-Michael reaction sequence to achieve rapid construction of complex polysubstituted ring systems starting from widely available heterocyclic amine nucleophiles and carbonyl electrophiles. Notably, the diastereoselectivity of this process is enhanced by the presence of water, and DFT calculations support a stereochemical model involving a facially selective protonation of a water-coordinated enol intermediate.",

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AU - Deem, Madeleine C.

AU - Lam, Yu-hong

AU - Sauri, Josep

AU - Sather, Aaron C.

PY - 2020/1/15

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KW - Enantioselective synthesis

KW - Potent

KW - Stereochemistry

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KW - Protonation

KW - Discovery

KW - Aldehydes

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A Modular and Diastereoselective 5+1 Cyclization Approach to N-(Hetero)Aryl Piperidines

Abstract

Keywords

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