Lewis Acid Catalyzed Stereoselective Synthesis of Trisubstituted Tetrahydrofurans

Victor Snieckus; M. A. Jalil Miah

doi:10.1055/s-0036-1590728

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Synfacts 2017; 13(08): 0795
DOI: 10.1055/s-0036-1590728

Synthesis of Heterocycles

Lewis Acid Catalyzed Stereoselective Synthesis of Trisubstituted Tetrahydrofurans

Contributor(s):

Victor Snieckus

,

M. A. Jalil Miah

Appun J. Boomhoff M. Hoffmeyer P. Kallweit I. Pahl M. Belder D. Schneider C. * Universität Leipzig, Germany
A Highly Stereoselective Synthesis of Tetrahydrofurans.

Angew. Chem. Int. Ed. 2017;
56: 6758-6761

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Publication History

Publication Date:
18 July 2017 (online)

Abstract
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Key words

aldehydes - boron trifluoride etherate - vinylogous aldol reaction - tetrahydrofurans

Significance

Reported is a Lewis acid (BF₃·OEt₂) catalyzed synthesis of 2,3,5-trisubstituted tetrahydrofurans 2a by the reaction of bis(silyloxy)diene 1 with aldehydes in good yields and with excellent stereoselectivity. The reaction involves a domino process in which three new σ-bonds and three stereogenic centers are produced. Tetrahydrofurans 2b with different 2- and 5-substituents were obtained by using two different aldehydes through a sequential reaction (1 → 2b). Both aryl- and alkyl-substituted tetrahydrofurans were easily obtained, but there was a decrease in stereoselectivity when α-branched aldehydes were used. Thienyl-substituted heterocycles showed a high tendency to isomerize; consequently, slightly lower dr values were observed. Single X-ray crystal analysis confirmed the 2,3,5-all-cis configuration of the compound 2c (R¹ = Ph; R² = 4-BrC₆H₄). Tetrahydrofuran 2d (R¹ = R² = Ph) underwent rapid epimerization on reaction with triethylamine to give the thermodynamically more favorable 2,3-trans,2,5-cis diastereomer (yield 82%, dr = 87:13).

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Comment

The tetrahydrofuran heterocycle is a key scaffold in various natural products and medicinally active molecules (see Review below), and various methods are known for their synthesis (see, for example: B. List and co-workers J. Am. Chem. Soc. 2016, 138, 14538). However, these methods are limited to the use of the same aldehyde (2.0 equiv) resulting in equal 2- and 5-substitution of the tetrahydrofurans, and they provide racemic products. The reported method employs a diastereoselective one-pot synthesis of 2a and 2b from readily available substrates. A probable mechanism is proposed involving a vinylogous aldol reaction followed by a Prins-type cyclization (M. Boomhoff, C. Schneider Chem. Eur. J. 2012, 18, 4185). Two of the tetrahydrofuran products 2 were converted into bi- and tricyclic compounds by carbonyl–ene reactions (71–95% yield; dr = 80:20 to 95:5) (A. C. Jackson, B. E. Goldman, B. B. Snider J. Org. Chem. 1984, 49, 3988).

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Review

A. de La Torre, C. Cuyamendous, V. Bultel-Poncé, T. Durand, J.-M. Galano, C. Oger Tetrahedron 2016, 72, 5003–5025.

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