Tandem nitroalkene cycloaddition

Transformations on the Periphery of Nitroso Acetals Without Cleavage of N—O Bonds The tandem nitroalkene cycloaddition is more synthetically useful because... 

Recently, Denmark and coworkers have developed a new strategy for the construction of complex molecules using tandem [4+2]/[3+2]cycloaddition of nitroalkenes.149 In the review by Denmark, the definition of tandem reaction is described and tandem cascade cycloadditions, tandem consecutive cycloadditions, and tandem sequential cycloadditions are also defined. The use of nitroalkenes as heterodienes leads to the development of a general, high-yielding, and stereoselective method for the synthesis of cyclic nitronates (see Section 5.2). These dipoles undergo 1,3-dipolar cycloadditions. However, synthetic applications of this process are rare in contrast to the functionally equivalent cycloadditions of nitrile oxides. This is due to the lack of general methods for the preparation of nitronates and their instability. Thus, as illustrated in Scheme 8.29, the potential for a tandem process is formulated in the combination of [4+2] cycloaddition of a donor dienophile with [3+2]cycload-... 

The majority of asymmetric dipolar cycloadditions have been investigated in the context of the tandem [4 + 2]/[3 + 2]-nitroalkene cycloaddition. The chiral nitronate is prepared by using either a chiral nitroalkene, vinyl ether, or Lewis acid in the hrst cycloaddition. The acetal center at C(6) of the nitronate provides important steric and electronic effects that control the subsequent dipolar cycloaddition. Subsequently, in the cycloadditions of the chiral nitroalkenes 281 and 284, the dipolarophile approaches from the side distal to that of the substituent at C(4) and the acetal center at C(6) (Eq. 2.27 and Table 2.53) (90,215). 

The dipolar cycloaddition of nitronates has been applied to the synthesis of several natural products in the context of the tandem [4+2] / [3 + 2] nitroalkene cycloaddition process. All of these syntheses have focused on the construction of pyrrolidine, pyrrolizidine, and indolizidine alkaloids. For example, the synthesis of ( )-hastanecine (316), a necine alkaloid, involves the elaboration of a p-benzoy-loxynitroalkene 311 via [4 + 2] cycloaddition with a chiral vinyl ether (312) in the presence of a titanium based Lewis acid, to provide the nitronate 313 with high diastereo- and facial selectivity (Scheme 2.30) (69). The dipolar cycloaddition of... 

Novel stereoselectivity in tandem inter[4+2]/intra[3+2] nitroalkene cycloaddition... 

As illustrated in Figure 16.7, an intramolecular [4 + 2] nitroalkene cycloaddition can be followed by an intermolecular [3 + 2] cycloaddition of the formed nitronate intermediate. This variant of the tandem cycloaddition has not been extensively studied and only two reports can be found. Moreover, the resulting nitroso acetals have not been subjected to further transformations such as hydrogenolysis. 

The tandem cycloaddition of nitroalkene 394 (Scheme 16.77) produces a tetracyclic nitroso acetal 397 with up to six new stereogenic centers in just two steps. Hydrogenolysis reveals a bicyclic amino diol 398, which may react further, for example, forming tetracyclic lactam 399. AU of the six newly formed stereogenic centers may potentially remain in the hydrogenolysis products, such as 398. It is this dramatic increase in complexity that makes the tandem, double-intramolecular nitroalkene cycloaddition so attractive. 

Hassner and coworkers have developed a one-pot tandem consecutive 1,4-addition intramolecular cycloaddition strategy for the construction of five- and six-membered heterocycles and carbocycles. Because nitroalkenes are good Michael acceptors for carbon, sulfur, oxygen, and nitrogen nucleophiles (see Section 4.1 on the Michael reaction), subsequent intramolecular silyl nitronate cycloaddition (ISOC) or intramolecular nitrile oxide cycloaddition (INOC) provides one-pot synthesis of fused isoxazolines (Scheme 8.26). The ISOC route is generally better than INOC route regarding stereoselectivity and generality. 

Hetero Diels-Alder reactions using nitroalkenes followed by 1,3-dipolar cycloadditions provide a useful strategy for the construction of polycyclic heterocycles, which are found in natural products. Denmark has coined the term tandem [4+2]/[3+2] cycloaddition of nitroalkenes for this type of reaction. The tandem [4+2]/[3+2] cycloaddition can be classified into four families as shown in Scheme 8.31, where A and D mean an electron acceptor and electron donor, respectively.149 In general, electron-rich alkenes are favored as dienophiles in [4+2] cycloadditions, whereas electron-deficient alkenes are preferred as dipolarophiles in [3+2] cycloadditions. 

The strategy based on tandem cycloaddition leads to a short and efficient asymmetric synthesis of the pyrrolizidine necine base (-)-hastanecine, as shown in Scheme 8.32.163 Pyrrolizidine alkaloids have a long history for attracting the interest of synthetic chemists because of their physiological properties. The method of Denmark shown in this scheme is very simple and applied to synthesis of various alkaloids. The Lewis acid-promoted [4+2] cycloaddition between 2-acyloxy nitroalkene and chiral vinyl ether gives a nitronate that... 

Similarly, (+)-casuraline, a pentahydroxy pyrrolizidine alkaloid, is prepared by a tandem [4+2]/[3+2] cycloaddition involving nitroalkene, chiral vinyl ether, and vinyl silane. This process creates five of the six stereocenters present in this potent glycosidase inhibitor (Scheme 8.35).172... 

Asymmetric tandem cycloaddition of a chiral carbohydrate nitroalkene with ethyl vinyl ether in the presence of electron-withdrawing alkenes produces a facile assembly of bicyclic systems, which can further be selectively cleaved to give homologated carbohydrates (Eq. 8.110).176... 

Inter [4 +2]/intra [3+2] This type of tandem reaction using nitroalkenes has been explored most extensively. Four subfamilies of tandem cycloaddition exist, which arise from the four different points of attachment of the dipolarophilic tether. They are defined as fused, spiro, and bridged modes, as depicted in Scheme 8.37.149... 

Di- and trisubstituted nitroalkenes tethered to dipolarophiles (unsaturated esters, nitriles) undergo tandem [4+2]/[3+2] cycloadditions with 2,3-dimethyl-2-butene or butyl vinyl ether in the presence of Lewis acids (Eq. 8.112). For the dimethylene tether, the E-configuration of the dipolarophile is preferred, and the products arise selectively from a syn-endo pathway.177... 

The extremely high selectivity for tandem cycloaddition, the ease of manipulation of the nitroso acetals, and the release of the vinyl ether appendage in the hydrogenolytic cleavage constitute ideal features for asymmetric modifications of the cycloadditions with chiral vinyl ethers. As discussed in Section 8.3.2.1 (Inter [4+2]/inter [3+2] cycloadditions of nitroalkenes), the stereochemical course depends on the Lewis acids. The results are summarized in Scheme 8.38.179 The high levels and complementary selectivity with three chiral vinyl ethers and two kinds of Lewis acids (Ti- and Al-based Lewis acids) are presented in this scheme. 

The tandem [4+2]/[3+2] cycloaddition of nitroalkenes is an extremely flexible method for the synthesis of necins. All of the stereochemical attributes are subject to a high level of... 

The synthesis of (+)-crotanecine is accomplished in 10 steps in a 10.2% overall yield, as shown in Scheme 8.42. The key step in the asymmetric synthesis is a Lewis acid-promoted, tandem inter [4+2]/intra [3+2] cycloaddition between a (fumaroyloxy)nitroalkene and chiral [J-silylvinyl ether, in which the substituted silanes are used as hydroxy synthons.181... 

When a-tethered nitroalkenes bearing three or four methylene chains and ester-activated dipolarophiles react with vinyl ethers, spiro mode tandem cycloaddition takes place to give tricyclic spiro nitroso acetals in good yield and high diastereoselectivity (Scheme 8.46).184... 

When l-alkoxy-l,4-pentadienes are used instead of 2-alkoxy-l,4-pentadienes, tandem inter [4+2]/intra [3+2] cycloaddition of nitroalkenes followed by hydrogenolysis affords a versatile asymmetric synthesis of highly functionalized aminocyclopentanes (Scheme 8.47).186... 

In recent years, the importance of aliphatic nitro compounds has greatly increased, due to the discovery of new selective transformations. These topics are discussed in the following chapters Stereoselective Henry reaction (chapter 3.3), Asymmetric Micheal additions (chapter 4.4), use of nitroalkenes as heterodienes in tandem [4+2]/[3+2] cycloadditions (chapter 8) and radical denitration (chapter 7.2). These reactions discovered in recent years constitute important tools in organic synthesis. They are discussed in more detail than the conventional reactions such as the Nef reaction, reduction to amines, synthesis of nitro sugars, alkylation and acylation (chapter 5). Concerning aromatic nitro chemistry, the preparation of substituted aromatic compounds via the SNAr reaction and nucleophilic aromatic substitution of hydrogen (VNS) are discussed (chapter 9). Preparation of heterocycles such as indoles, are covered (chapter 10). 

Intramolecular [3+ 2]-cycloaddition of six-membered cyclic nitronates was extensively studied by Prof. Denmark and coworkers for the tandem [4 + 2] [3 + 2] -cycloaddition reactions of nitroalkenes. Detailed considerations of this problem were summarized in two reviews (394a, b). Most data were comprehensively discussed in Reference 394b. It is unnecessary to repeat this information however, it is worthwhile to briefly review the available data. 

Reactions of Tandem [4 + 2][3 + 2] Cycloaddition of Conjugated Nitroalkenes and their Use in Organic Synthesis... 

Chart 3.18 Various modes of tandem [4+ 2][3 + 2] cycloaddition of nitroalkenes. 

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