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Harnessing C−H Activation of Benzhydroxamates as a Macrocyclization Strategy: Synthesis of Structurally Diverse Macrocyclic Isoquinolones

Macrocycles are arising considerable interest in medicinal chemistry. With the goal of harnessing C−H activation reactions for the development of efficient macrocyclization processes, the ruthenium(II)‐catalyzed cyclization of O‐methyl benzhydroxamates possessing an ω‐acetylenic chain was investigat...

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Published in:	Chemistry : a European journal 2016-09, Vol.22 (38), p.13469-13473
Main Authors:	Krieger, Jean-Philippe, Ricci, Gino, Lesuisse, Dominique, Meyer, Christophe, Cossy, Janine
Format:	Article
Language:	English
Subjects:	Activation Activation analysis Chemical reactions Chemical Sciences Chemistry Compatibility C−H activation isoquinolones macrocycles Macrocyclic compounds macrocyclization Organic chemistry Pharmaceutical sciences ruthenium Strategy Substrates Synthesis
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cited_by	cdi_FETCH-LOGICAL-c5152-426674cd03e76f25050fce461686dfd4bf59c376270bfddca1b7e506304d25c53
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creator	Krieger, Jean-Philippe Ricci, Gino Lesuisse, Dominique Meyer, Christophe Cossy, Janine
description	Macrocycles are arising considerable interest in medicinal chemistry. With the goal of harnessing C−H activation reactions for the development of efficient macrocyclization processes, the ruthenium(II)‐catalyzed cyclization of O‐methyl benzhydroxamates possessing an ω‐acetylenic chain was investigated to access new structurally diverse macrocyclic isoquinolones. A slow addition of the substrate and the presence of Cu(OAc)2⋅H2O as an additive were crucial for the success of the macrocyclization that features an excellent functional‐group compatibility, as illustrated by the successful synthesis of a library of 21 macrocyclic isoquinolones of different ring sizes and substitution patterns. These results contribute to significantly highlight the synthetic interest of C−H activation‐mediated processes for the synthesis of new macrocyles incorporating heterocyclic scaffolds of potential interest in medicinal chemistry. Ruthenium(II)‐catalyzed annulation of ω‐alkynyl benzhydroxamates has been developed as an efficient strategy toward new structurally diverse macrocyclic isoquinolones (see scheme). The devised experimental conditions are suitable for a wide range of substrates, as illustrated by the successful preparation of 21 macrocyclic isoquinolones possessing 12‐ to 20‐membered rings in good to excellent yields.
doi_str_mv	10.1002/chem.201602332
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Ruthenium(II)‐catalyzed annulation of ω‐alkynyl benzhydroxamates has been developed as an efficient strategy toward new structurally diverse macrocyclic isoquinolones (see scheme). 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Eur. J</addtitle><description>Macrocycles are arising considerable interest in medicinal chemistry. With the goal of harnessing C−H activation reactions for the development of efficient macrocyclization processes, the ruthenium(II)‐catalyzed cyclization of O‐methyl benzhydroxamates possessing an ω‐acetylenic chain was investigated to access new structurally diverse macrocyclic isoquinolones. A slow addition of the substrate and the presence of Cu(OAc)2⋅H2O as an additive were crucial for the success of the macrocyclization that features an excellent functional‐group compatibility, as illustrated by the successful synthesis of a library of 21 macrocyclic isoquinolones of different ring sizes and substitution patterns. These results contribute to significantly highlight the synthetic interest of C−H activation‐mediated processes for the synthesis of new macrocyles incorporating heterocyclic scaffolds of potential interest in medicinal chemistry. Ruthenium(II)‐catalyzed annulation of ω‐alkynyl benzhydroxamates has been developed as an efficient strategy toward new structurally diverse macrocyclic isoquinolones (see scheme). 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subjects	Activation Activation analysis Chemical reactions Chemical Sciences Chemistry Compatibility C−H activation isoquinolones macrocycles Macrocyclic compounds macrocyclization Organic chemistry Pharmaceutical sciences ruthenium Strategy Substrates Synthesis
title	Harnessing C−H Activation of Benzhydroxamates as a Macrocyclization Strategy: Synthesis of Structurally Diverse Macrocyclic Isoquinolones
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