Total Synthesis of Brevetoxin A: Part 3: Construction of GHIJ and BCDE Ring Systems

Nicolaou, K. C.; Shi, Guanghai; Gunzner, Janet L.; Gärtner, Peter; Wallace, Paul A. W.; Ouellette, Michael A.; Shi, Shuhao; Bunnage, Mark E.; Agrios, Konstantinos A.; Veale, C. A.; Hwang, Cheol Kyu; Hutchinson, John H.; Prasad, C. V. C.; Ogilvie, William W.; Yang, Zhen

doi:10.1002/(sici)1521-3765(19990201)5:2<628::aid-chem628>3.0.co;2-e

Cited by 57 publications

(16 citation statements)

References 12 publications

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“…The regio-and stereoselective intramolecular opening of vinylepoxides provides an efficient route to tetrahydropyran and oxepane systems and has successfully been applied in several syntheses of natural products, a pertinent example being that of the neurotoxic marine polycyclic ether brevetoxin B [106][107][108]. Cyclization of hydroxy epoxide 33a under acidic conditions results in tetrahydrofuran 34a as the sole isomer in excellent yield (Table 9.4, Entry 1).…”

Section: Intramolecular Opening With Oxygen and Nitrogen Nucleophilesmentioning

confidence: 99%

Vinylepoxides in Organic Synthesis

Olofsson

Somfai

2006

Aziridines and Epoxides in Organic Synthesis

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Section: Intramolecular Opening With Oxygen and Nitrogen Nucleophilesmentioning

confidence: 99%

Vinylepoxides in Organic Synthesis

Olofsson

Somfai

2006

Aziridines and Epoxides in Organic Synthesis

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“…[3] The bioactivity of brevetoxin A is attributed to strong binding to the α subunit of the voltage-sensitive sodium ion channels, effecting an increase in the mean channel open time and inhibiting channel inactivation. [3a] The landmark total synthesis reported in 1998 by Nicolaou[4] stands as the only completed synthesis of this captivating target.…”

Section: Introductionmentioning

confidence: 99%

“…The first disconnection directed the simplification of the natural product into two tetracyclic halves of similar complexity ( 2 and 3 ), which would be united in a stereoselective Horner–Wittig reaction precedented by the previous synthesis by Nicolaou (Scheme 1). [4,5] The Horner–Wittig coupling partners 2 and 3 would be obtained from advanced fragments 4 and 5 respectively, which would be further disconnected into two subunits each. Specfically, the the BCDE fragment 4 [6a] would be prepared from the B and E ring subunits 6 and 7 through a novel convergent [X + 2 + X] strategy,[1c] and the GHIJ subunit 5 [6b] would be prepared in an analogous way from the G and J ring subunits 8 and 9 .…”

Section: Introductionmentioning

confidence: 99%

Enantioselective Total Synthesis of Brevetoxin A: Unified Strategy for the B, E, G, and J Subunits

Crimmins

Ellis

Emmitte

et al. 2009

Chemistry A European J

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Brevetoxin A is a decacyclic ladder toxin that possesses five-,six-, seven-, eight-, and nine-membered oxacycles, as well as 22 tetrahedral stereocenters. Herein, we describe a unified approach to the B, E, G, and J rings predicated upon a ring-closing metathesis strategy from the corresponding dienes. The enolate technologies developed in our laboratory allowed access to the precursor acyclic dienes for the B, E, and G medium ring ethers. The strategies developed for the syntheses of these four monocycles ultimately provided multigram quantities of each of the rings, supporting our efforts toward the convergent completion of brevetoxin A.

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“…Ketal 3 would be obtained through the stereoselective Horner—Wittig coupling6 of phosphine oxide 5 and aldehyde 6 . This route was attractive not only because it allowed for optimal convergence by simplifying the natural product into two halves of similar complexity, but also because it found precedent in the strategy previously reported by Nicolaou 4. Further, it was reasoned that the dithioketal moiety of aldehyde 6 could serve as a stabilized precursor to mixed ketal 3 , or lead to sulfone 4 in the event that formation or reductive etherification of mixed ketal 3 proved problematic.…”

mentioning

confidence: 99%

“…Diol 9 was protected as the bis-TBS ether, whereupon selective cleavage of the primary TBS ether with HF·pyr afforded alcohol 10 . Alcohol 10 was smoothly transformed to phosphine oxide 11 via a sequence which involved mesylation of the alcohol, nucleophilic displacement of the mesylate to provide the alkyl diphenylphosphine, and finally, oxidative workup of the phosphine with H 2 O 2 4,6. Cleavage of the TBS ether with n -Bu 4 NF and formation of the methoxypropyl (MOP) acetal delivered the required phosphine oxide 5 in high yield 8…”

mentioning

confidence: 99%

Total Synthesis of Brevetoxin A

et al. 2008

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A total synthesis of brevetoxin A is reported. Two tetracyclic coupling partners, prepared from previously reported advanced fragments, were effectively united via a Horner-Wittig olefination. The resulting octacycle was progressed to substrates that were explored for reductive etherification, the success of which led to a penultimate tetraol intermediate. The tetraol was converted to the natural product through an expeditious selective oxidative process, followed by methylenation.The exquisite structures of marine polycyclic ether natural products have captured the imagination of synthetic chemists for over two decades. The structures of the polyether ladder toxins characteristically contain a linear series of trans fused ether rings of varying sizes from five to nine members with assorted methyl and hydroxyl substituents appended. As novel technologies for the convergent preparation of these targets have emerged, a number of total syntheses of the ladder toxins have been completed. 1 The structure of brevetoxin A (1), a representative member of this class, was first elucidated in 1986 by Shimizu 2a,b , and coworkers by X-ray analysis and independently determined by Nakanishi through spectroscopic studies. 2c Brevetoxin A (1) contains ten rings (including five-, six-, seven-, eight, and ninemembered oxacycles) fused in a linear array adorned by 22 tetrahedral stereocenters. A metabolite of Karenia brevis, brevetoxin A is a toxic component of the infamous red tide phenomenon, which has been responsible for massive fish kills as well as neurotoxic shellfish poisoning and bronchial irritation in humans. 3 The potent activity of brevetoxin A is attributed to strong binding to the α subunit of the voltage-sensitive sodium ion channels effecting an increase in the mean channel open time and inhibiting channel inactivation. The planned approach for the total synthesis of brevetoxin A 5 focused on a versatile endgame that would exploit the selective manipulation of tetraol 2 (Scheme 1), which would derive from mixed methyl ketal 3 via stereoselective reductive etherification. Ketal 3 would be obtained through the stereoselective Horner-Wittig coupling 6 of phosphine oxide 5 and aldehyde 6. This route was attractive not only because it allowed for optimal convergence by simplifying the natural product into two halves of similar complexity, but also because it found precedent in the strategy previously reported by Nicolaou. 4 Further, it was reasoned that the dithioketal moiety of aldehyde 6 could serve as a stabilized precursor to mixed ketal 3, or lead to sulfone 4 in the event that formation or reductive etherification of mixed ketal 3 proved problematic. The Horner-Wittig coupling partners 5 and 6 would be obtained from advanced fragments 7 and 8, respectively. The BCDE fragment 7 and GHIJ subunit 8 had been previously prepared in significant quantities through similar highly convergent [X+2+X] strategies based on a Horner-Wadsworth-Emmons coupling of the B and E ring units (and the G and J subunits) and subs...

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Total Synthesis of Brevetoxin A: Part 3: Construction of GHIJ and BCDE Ring Systems

Cited by 57 publications

References 12 publications

Vinylepoxides in Organic Synthesis

Vinylepoxides in Organic Synthesis

Enantioselective Total Synthesis of Brevetoxin A: Unified Strategy for the B, E, G, and J Subunits

Total Synthesis of Brevetoxin A

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