Site-Selective Aliphatic C-H Chlorination Using N-Chloroamides Enables a Synthesis of Chlorolissoclimide

Methods for the practical, intermolecular functionalization of aliphatic C-H bonds remain a paramount goal of organic synthesis. Free radical alkane chlorination is an important industrial process for the production of small molecule chloroalkanes from simple hydrocarbons, yet applications to fine c...

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Veröffentlicht in:	Journal of the American Chemical Society Jg. 138; H. 2; S. 696 - 702
Hauptverfasser:	Quinn, Ryan K., Koenst, Zef A., Michalak, Sharon E., Schmidt, Yvonne, Szklarski, Anne R., Flores, Alex R., Nam, Sangkil, Horne, David A., Vanderwal, Christopher D., Alexanian, Erik J.
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	WASHINGTON Amer Chemical Soc 20.01.2016
Schlagworte:	Carbon - chemistry Chemistry Chemistry, Multidisciplinary Chlorine - chemistry Diterpenes - chemistry Hydrogen - chemistry Physical Sciences Science & Technology Succinimides - chemistry OXIDATION REAGENTS AZIDATION LINE NSCLC-N6 MARINE SUBSTANCES CONVENIENT DICHLOROLISSOCLIMIDE RADICALS FLUORINATION ALKALOIDS
ISSN:	0002-7863, 1520-5126, 1520-5126
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Zusammenfassung:	Methods for the practical, intermolecular functionalization of aliphatic C-H bonds remain a paramount goal of organic synthesis. Free radical alkane chlorination is an important industrial process for the production of small molecule chloroalkanes from simple hydrocarbons, yet applications to fine chemical synthesis are rare. Herein, we report a site-selective chlorination of aliphatic C-H bonds using readily available N-chloroamides and apply this transformation to a synthesis of chlorolissoclimide, a potently cytotoxic labdane diterpenoid. These reactions deliver alkyl chlorides in useful chemical yields with substrate as the limiting reagent. Notably, this approach tolerates substrate unsaturation that normally poses major challenges in chemoselective, aliphatic C-H functionalization. The sterically and electronically dictated site selectivities of the C-H chlorination are among the most selective alkane functionalizations known, providing a unique tool for chemical synthesis. The short synthesis of chlorolissoclimide features a high yielding, gram-scale radical C-H chlorination of sclareolide and a three-step/two-pot process for the introduction of the beta-hydroxysuccinimide that is salient to all the lissoclimides and haterumaimides. Preliminary assays indicate that chlorolissoclimide and analogues are moderately active against aggressive melanoma and prostate cancer cell lines.
Bibliographie:	NIH RePORTER ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	0002-7863 1520-5126 1520-5126
DOI:	10.1021/jacs.5b12308