Total Synthesis of (−)‐Spiroleucettadine

One of a number of intriguing new alkaloids isolated from the Leucetta sp. sponge in 2004, spiroleucettadine displayed unique structural features on a restricted scaffold: a trans‐fused 5,5‐bicyclic ring system together with an amino hemiketal moiety. Attempts to synthesize the initially proposed st...

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Veröffentlicht in:	Angewandte Chemie 2017-11, Vol.129 (46), p.14855-14858
Hauptverfasser:	Lamb, Richard A., Aberle, Nicholas S., Lucas, Nigel T., Lessene, Guillaume, Hawkins, Bill C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkaloids Antibacterial materials Biological activity Biomimetics Chemistry Hypervalente Iodverbindungen Iodine Meeresalkaloide Methylamine Natural products Naturstoffe Oxidation Oxidationen Synthesis Totalsynthesen Tyrosine
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creator	Lamb, Richard A. Aberle, Nicholas S. Lucas, Nigel T. Lessene, Guillaume Hawkins, Bill C.
description	One of a number of intriguing new alkaloids isolated from the Leucetta sp. sponge in 2004, spiroleucettadine displayed unique structural features on a restricted scaffold: a trans‐fused 5,5‐bicyclic ring system together with an amino hemiketal moiety. Attempts to synthesize the initially proposed structure failed, raising questions as to its veracity, and structure revision ensued in 2008; no successful synthetic approach has been reported to date. Herein, we describe the enantiospecific total synthesis of (−)‐spiroleucettadine by a highly efficient biomimetic approach starting from l‐tyrosine. One of two key hypervalent‐iodine‐mediated oxidation reactions forged the spirocyclic center, and the other enabled the installation of the methylamine side chain in the penultimate step. Our approach provides synthetic access to a new class of spiroannulated natural products and will enable future studies of the structure–biological‐activity relationships of these antibacterial compounds. Kurz und auf den Punkt: Ein hoch effizienter biomimetischer Ansatz ermöglichte die Totalsynthese von (−)‐Spiroleucettadin (1), einem antibakteriellen marinen Naturstoff mit dicht gepackten Heteroatomen. Eine der beiden entscheidenden Oxidationen, die durch hypervalente Iodreagentien vermittelt werden, wurde zum Aufbau des spirocyclischen Zentrums genutzt, die andere ermöglichte die Anbindung der Methylamin‐Seitenkette im vorletzten Schritt.
doi_str_mv	10.1002/ange.201708110
format	Article
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subjects	Alkaloids Antibacterial materials Biological activity Biomimetics Chemistry Hypervalente Iodverbindungen Iodine Meeresalkaloide Methylamine Natural products Naturstoffe Oxidation Oxidationen Synthesis Totalsynthesen Tyrosine
title	Total Synthesis of (−)‐Spiroleucettadine
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