Literature DB >> 20161196

Spongipyran Synthetic Studies. Total Synthesis of (+)-Spongistatin 2.

Amos B Smith1, Qiyan Lin, Victoria A Doughty, Linghang Zhuang, Mark D McBriar, Jeffrey K Kerns, Armen M Boldi, Noriaki Murase, William H Moser, Christopher S Brook, Clay S Bennett, Kiyoshi Nakayama, Masao Sobukawa, Robert E Lee Trout.   

Abstract

Evolution of a convergent synthetic strategy to access (+)-spongistatin 2 (2), a potent cytotoxic marine macrolide, is described. Highlights of the synthesis include: development of a multicomponent dithiane-mediated linchpin union tactic, devised and implemented specifically for construction of the spongistatin AB and CD spiro ring systems; application of a Ca(II) ion controlled acid promoted equilibration to set the thermodynamically less stable axial-equitorial stereogenicity in the CD spiroketal; use of sulfone addition/Julia methylenation sequences to unite the AB and CD fragments and introduce the C(44)-C(51) side chain; and fragment union and final elaboration to (+)-spongistatin 2 (2) exploiting Wittig olefination to unite the advanced ABCD and EF fragments, followed by regioselective Yamaguchi macrolactonization and global deprotection. Correction of the CD spiro ring stereogenicity was subsequently achieved via acid equilibration in the presence of Ca(II) ion to furnish (+)-spongistatin 2 (2). The synthesis proceeded with a longest linear sequence of 41 steps.

Entities:  

Year:  2009        PMID: 20161196      PMCID: PMC2712115          DOI: 10.1016/j.tet.2009.04.001

Source DB:  PubMed          Journal:  Tetrahedron        ISSN: 0040-4020            Impact factor:   2.457


  30 in total

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Authors:  S Lemaire-Audoire; P Vogel
Journal:  J Org Chem       Date:  2000-06-02       Impact factor: 4.354

2.  The Spongistatins: Architecturally Complex Natural Products-Part One: A Formal Synthesis of (+)-Spongistatin 1 by Construction of an Advanced ABCD Fragment Financial support was provided by the National Institutes of Health (National Cancer Institute) through Grant CA-70329, NIH Postdoctoral Fellowships to A.M.B. and W.H.M., a Japan Society for Promotion of Science Fellowship to N.M., and a Royal Society Fulbright Fellowship to V.A.D. We also thank the Daiichi Pharmaceutical Co., Ltd, and the Tanabe Seiyaku Co., Ltd for financial support. Finally we thank Dr. George T. Furst, Dr. Patrick J. Carroll, Dr. Rakesh Kohli, and Mr John Dykins of the University of Pennsylvania Spectroscopic Service Center for assistance in securing and interpreting high-field NMR spectra, X-ray crystal structures, and mass spectra.

Authors:  Amos B. Smith III; Victoria A. Doughty; Qiyan Lin; Linghang Zhuang; Mark D. McBriar; Armen M. Boldi; William H. Moser; Noriaki Murase; Kiyoshi Nakayama; Masao Sobukawa
Journal:  Angew Chem Int Ed Engl       Date:  2001-01-05       Impact factor: 15.336

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6.  A broad-spectrum antifungal from the marine sponge Hyrtios erecta.

Authors:  R K Pettit; S C McAllister; G R Pettit; C L Herald; J M Johnson; Z A Cichacz
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Authors:  G C Micalizio; A N Pinchuk; W R Roush
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Authors:  M T Crimmins; J D Katz
Journal:  Org Lett       Date:  2000-04-06       Impact factor: 6.005

9.  Multigram synthesis of the C29-C51 subunit and completion of the total synthesis of altohyrtin C (spongistatin 2).

Authors:  Clayton H Heathcock; Mark McLaughlin; Jesus Medina; Jed L Hubbs; Grier A Wallace; Robert Scott; Michele M Claffey; Christopher J Hayes; Gregory R Ott
Journal:  J Am Chem Soc       Date:  2003-10-22       Impact factor: 15.419

10.  Altohyrtins B and C and 5-desacetylaltohyrtin A, potent cytotoxic macrolide congeners of altohyrtin A, from the Okinawan marine sponge Hyrtios altum.

Authors:  M Kobayashi; S Aoki; H Sakai; N Kihara; T Sasaki; I Kitagawa
Journal:  Chem Pharm Bull (Tokyo)       Date:  1993-05       Impact factor: 1.645
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  9 in total

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Review 2.  Conformation-activity relationships of polyketide natural products.

Authors:  Erik M Larsen; Matthew R Wilson; Richard E Taylor
Journal:  Nat Prod Rep       Date:  2015-08       Impact factor: 13.423

3.  Exploiting pseudo C2-symmetry for an efficient synthesis of the F-ring of the spongistatins.

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4.  Design, synthesis, and biological evaluation of diminutive forms of (+)-spongistatin 1: lessons learned.

Authors:  Amos B Smith; Christina A Risatti; Onur Atasoylu; Clay S Bennett; Junke Liu; Hongsheng Cheng; Karen TenDyke; Qunli Xu
Journal:  J Am Chem Soc       Date:  2011-08-12       Impact factor: 15.419

5.  Total Synthesis of (-)-Bastimolide A: A Showcase for Type I Anion Relay Chemistry.

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6.  Toward a more step-economical and scalable synthesis of spongistatin 1 to facilitate cancer drug development efforts.

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Journal:  Chem Sci       Date:  2013-04-01       Impact factor: 9.825

7.  Complex fragment coupling by crotylation: A powerful tool for polyketide natural product synthesis.

Authors:  Samuel K Reznik; Brian S Marcus; James L Leighton
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8.  Design and 22-step synthesis of highly potent D-ring modified and linker-equipped analogs of spongistatin 1.

Authors:  Linda M Suen; Makeda A Tekle-Smith; Kevin S Williamson; Joshua R Infantine; Samuel K Reznik; Paul S Tanis; Tyler D Casselman; Dan L Sackett; James L Leighton
Journal:  Nat Commun       Date:  2018-11-09       Impact factor: 14.919

9.  Iodine/water-mediated deprotective oxidation of allylic ethers to access α,β-unsaturated ketones and aldehydes.

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  9 in total

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