Cycloaddition Lewis-acid-promoted

Denmark and coworkers have found that methylaluminum bis (2,6-di-tert-butyl-4-methyl-phenoxide) (MAD) or methylaluminum bis(2,6-diphenylphenoxide) (MAPh) is effective as the Lewis acid promoter for cycloaddition of 2,2-disubstituted 1-nitroalkenes (Eq. 8.100).158 Other Lewis acids such as SnCl4, TiCl4, and TiCl2(Oi-Pr)2 fail to promote the cycloaddition of 2,2-disubstituted 1-nitroalkenes. The products are converted into 3,3-disubstituted pyrrolidines via hydrogenolysis.158 Reductive cleavage of N-0 bonds produces oxime hemiacetals, which are further reduced to amido aldehydes and finally to pyrrolidines. This reaction provides a useful synthetic method for pyrrolidines, which is discussed later. 

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... 

The simplest nitroalkene, nitroethene, undergoes Lewis acid-promoted [4+2] cycloaddition with chiral vinyl ethers to give cyclic nitronates with high diastereoselectivity. The resulting cyclic nitronates react with deficient alkenes to effect a face-selective [3+2] cycloaddition. A remote acetal center controls the stereochemistry of [3+2] cycloaddition. This strategy is applied to synthesis of the pyrrolizidine alkaloids (+)-macronecine and (+)-petasinecine (Scheme 8.33).165... 

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... 

Cycloadditions and cyclization reactions are among the most important synthetic applications of donor-substituted allenes, since they result in the formation of a variety of carbocyclic and heterocyclic compounds. Early investigations of Diels-Alder reactions with alkoxyallenes demonstrated that harsh reaction conditions, e.g. high pressure, high temperature or Lewis acid promotion, are often required to afford the corresponding heterocycles in only poor to moderate yield [12b, 92-94]. Although a,/3-unsaturated carbonyl compounds have not been used extensively as heterodienes, considerable success has been achieved with activated enone 146 (Eq. 8.27) or with the electron-deficient tosylimine 148 (Eq. 8.28). Both dienes reacted under... 

The Lewis acid-promoted [4+ 2]-cycloaddition reaction of the allenic ester 103 having a camphor-derived chiral auxiliary with cydopentadiene provided the adduct with excellent Jt-facial selection, leading to an enantioselective synthesis of (-)-/l-san-talene [92]. 

The reaction of allenylsilanes with a,/8-unsaturated acylsilanes presents a new [3 + 3]-cycloaddition approach to a six-membered carbocycle [189]. Lewis acid-promoted ring expansion of the [3 + 2]-annulation product 260 is followed by a second cationic 1,2-silyl migration to produce the cyclohexenone 261 after desilylation. 

Our preliminary experiments have provided the first example of Lewis acid promoted C-C bond heterolysis of epoxides and productive cycloaddition (eq 7). Under the influence of TiCl4-(THF)2 (2 equiv), epoxide 26 reacts with methyl pyruvate to provide acetal 27 (52% isolated yield), along with C-O cleavage product 28 (23 °C, 3 h). The diaste-reoselectivity for formation of 27 is 2.3 1. We have performed the analogous reaction in the absence of a Lewis acid the thermal reaction requires several days at 110 °C and gives a diastereomer ratio (dr) of ca. 1.3 1... Although not optimized from the standpoint of chemoselectivity, these results are promising because of the relatively low reaction temperature and potential for enhanced diastereocontrol. 

Lewis acid-promoted [3+2] cycloadditions of aziridines and epoxides proceeding via carbon-carbon bond cleavage of three-membered ring heterocycles are demonstrated for the first time. This proposal details plans for extending these initial results into a general synthetic method for the enantioselective synthesis of structurally diverse pyrrolidine- and tetrahydrofuran-containing organic compounds. Expected outcomes of the proposed work will include... 

The reaction of vinyl ethers and enamines with nitroalkenes is highly regiose-lective, with only the head-to-head adduct observed. The endo approach of the dienophile is preferred in the thermal cycloaddition, however, the mode of approach can be controlled by the choice of the Lewis acid promoter (214). Facial discrimination has been obtained by the use of chiral groups on the both the nitroalkene (215,216) and the enamine (217) or vinyl ether (218), as well as with chiral Lewis acids (46,66,94,219,220). 

The synthesis of fenozan BO-7 4 involves two key steps, the first of which employs a 4 + 2 cycloaddition of singlet oxygen to the diene 83a122-20 123. This provides the endoper-oxide 83b that can be transformed into the target cis-fused 1,2,4-trioxane by treatment with the Lewis acid, TMSOTf, in the presence of a carbonyl compound. The reaction proceeds by Lewis acid promoted heterolysis of the C—O bond to give an intermediate peroxy allyl cation 83c that is captured by the carbonyl compound (in this case, cyclopen-tanone) to give the product (Scheme 30). A number of different carbonyls have been used in this reaction along with a number of different endoperoxide templates and detailed SAR have been developed (Scheme 30). 

The 2 + 2-cycloaddition reaction of a-alkoxyketene-derived imines yields /l-lactams with quaternary stereogenic centres at C(4).33 The 2 + 2-cycloaddition of chiral aminoketenes with chiral imines yields cis-fi-lactams with the absolute stereochemistry of file C(3) and C(4) positions being controlled by the ketene partner only.34 The 2 + 2-cycloaddition of ketenes with (W)-2-/-butyldihydrooxazole (19) yields predominately the regioisomer (20) from steric control rather than the expected electronic control (Scheme 7).35 The double 2 + 2-cycloaddition reaction between ketenylidenetriphe-nylphosphorane (21) and carbon suboxide (22) produces the bis(ylidic) spirocyclobut-anedione (23) (Scheme 8).36 Semiempirical and ab initio calculations have been used to investigate the Lewis acid-promoted 2 + 2-cycloaddition leading to the formation of jS-lactones.37... 

The Lewis acid-promoted tandem inter[4 + 2]/intra[3 + 2]-cycloaddition of the (fumaroyloxy)nitroalkene (124) with the chiral /i-silylvinyl ether (125) is the key step in the total synthesis of (+)-crotanecine (126), the necine base of a number of pyrrolizidine alkaloids (Scheme 46).237 The tandem inter[4 + 2]/intra[3 + 2]-cycload-ditions of nitroalkenes (127) with dipolarophiles attached to the /f-carbon of a vinyl ether (128) provides a method of asymmetric synthesis of highly functionalized aminocyclopentanes (129) (Scheme 47).238 trans-2-( 1 -Methyl-phenylethyl)cyclohex-anol has been developed as a new auxiliary in tandem 4 + 2/3 + 2-cycloadditions of nitroalkenes.239 The scope and limitations of the bridged mode tandem inter-[4 + 2]/intra[3 + 2]-cycloadditions involving simple penta-1,4-dienes are described in detail.240 A tandem intermolecular/intramolecular Diels-Alder cycloaddition was successfiilly used to synthesize a B/C cA-fused taxane nucleus (130) in 50% overall... 

The SnCLrpromoted 2 + 1-cycloaddition of l-seleno-2-silylethene with 2-phos-phonoacrylates yields highly functionalized cyclopropanephosphonic acid ester products.271 The Lewis acid-promoted 2 + 1-cycloadditions of l-(phenylseleno)-2-(trimethylsilyl)ethene with tris(alkoxycarbonyl)olefins yields civ-substituted cyclopropanes exclusively.272... 

Treatment of 3/9,17/S-diacetoxy-5,10-secoandrost-l(10)-en-5-one (164) with BF3. Et20 has been shown to proceed with cleavage of the macrocycle and formation of a new compound (165) containing a cyclopentene ring.140 Based on DFT calculations, a possible mechanism has been proposed involving an intramolecular Lewis acid promoted 2 + 2-cycloaddition, followed by a cycloreversion of the intermediate oxetane (Scheme 45). 

Fused-3,6-dihydropyrans 233 are accessible in high yield via a Lewis-acid-promoted intramolecular [3+3] cycloaddition of the epoxides 234 with the tethered propargyltungsten group, followed by demetallation of the intermediate tungsten complexes 235 (Scheme 66) <2001JOC8106>. 

On the other hand, silver salts can act as a mild Lewis acid, promoting various reactions such as allylations, aldolizations, cycloadditions, and cyclizations. Silver salts can also be used as halide scavengers, acting as cocatalysts in cross-coupling reactions catalyzed by other metals, especially palladium. In the latter context, the exact role of silver salts is far from clear and may be more complex than just halide... 

The Lewis acid-promoted reaction of aldehydes with a-substituted allylsilanes forms 3-silyltetrahydrofurans in good to high yields.169-172 The use of homochiral allylsilanes is very valuable for highly diastereo- and enantio-selective syntheses of tri- and tetrasubstituted tetrahydrofurans (Equation (43)). Catalytic asymmetric [3-1-21-cycloaddition of a-substituted allenylsilanes to aldehydes can be achieved by a chiral scandium complex.173... 

The first example of Lewis acid-promoted [2 + 2]-cycloaddition of allylsilanes was introduced by Snider et al. in 1979.185 In the last decade, similar cycloadditions to various electron-deficient unsaturated bonds have been developed for efficient syntheses of cyclobutanes, cyclobutenes, oxetanes, and azetidines as described below. 

Use of allylsilanes as 1,2-dipole equivalents is valuable also for the construction of six-membered rings. f3-Oxyaldehydes undergo Lewis acid-promoted cycloadditions with allylsilanes to provide substituted tetrahydropyrans (Equation (52)). 3 A similar [4 + 2]-cycloaddition of /V-/-butoxycarbonyl-0,Ar-acetals is available for the synthesis... 

Chiral (Z)-l-(alkylsulfinyl)-2-nitroalkenes underwent Lewis acid-promoted Diels-Alder reactions, with complete control of the diastereoselectivity as well as endo selectivity, to yield single cycloadducts.114 Enantiopure (-)-trans-benzo[d ]dithi-ine-S.S -dioxide underwent Diels-Alder cycloadditions with a series of cyclic dienes, affording adducts with diastereoselectivities ranging from fair to high.113... 

R)-(-)-2,2-Diphenylcyclopentanol (1) is a highly effective chiral auxiliary in asymmetric synthesis. Hydrogenation of chiral 0-acetamidocrotonates derived from this alcohol has afforded the corresponding 0-amido esters with high diastereoselectivity (96% de).6 In addition, (R)-1 has been used as a chiral auxiliary in Mn(lll)-based oxidative free-radical cyclizations to provide diastereomerically enriched cycloalkanones (60% de).7 Our interest in (R)-(-)-2,2-diphenylcyclopentanol is its utility as a chiral auxiliary in Lewis acid-promoted, asymmetric nitroalkene [4+2] cycloadditions. The 2-(acetoxy)vinyl ether derived from alcohol (R)-1 is useful for the asymmetric synthesis of 3-hydroxy-4-substituted pyrrolidines from nitroalkenes (96% ee).8 In a similar fashion, a number of enantiomerically enriched (71-97% ee) N-protected, 3-substituted pyrrolidines have been prepared in two steps from 2-substituted 1-nitroalkenes and (R)-2,2-diphenyl-1-ethenoxycyclopentane (2) (see Table).9... 

In consideration of conceivable strategies for the more direct construction of these derivatives, nitriles can be regarded as simple starting materials with which the 3+2 cycloaddition of acylcarbenes would, in a formal sense, provide the desired oxazoles. Oxazoles, in fact, have previously been obtained by the reaction of diazocarbonyl compounds with nitriles through the use of boron trifluoride etherate as a Lewis acid promoter. Other methods for attaining oxazoles involve thermal, photochemical, or metal-catalyzed conditions.12 Several recent studies have indicated that many types of rhodium-catalyzed reactions of diazocarbonyl compounds proceed via formation of electrophilic rhodium carbene complexes as key intermediates rather than free carbenes or other types of reactive intermediates.13 If this postulate holds for the reactions described here, then the mechanism outlined in Scheme 2 may be proposed, in which the carbene complex 3 and the adduct 4 are formed as intermediates.14... 

The [4+3] cycloaddition between furan and amino-stabilized allyl cations has not been as actively studied. An intramolecular cycloaddition between a furan and a 2-aminoallyl cation, generated from methyleneaziridine under Lewis acid-promoted conditions, is shown in Equation (50) <2004AGE6517>. An AgBF4-promoted asymmetric intermolecular [4+3] cycloaddition of 2-aminoallyl cations, derived from chiral a-chloroimines, with furan to give cycloadducts of up to 60% ee was also reported <1997TL3353>. 

Diels-Alder Reactions. Chiral a,p-unsaturated imides participate in Lewis acid-promoted Diels-Alder cycloaddition reactions to afford products in uniformly excellent endo/exo and endo diastereoselectivities (eq 50 and 51). Unfortunately, this reaction does not extend to certain dienophiles, including methacryloyl imides, p,3-dimethylacryloyl imides, or alkynic imides. Cycloadditions also occur with less reactive acyclic dienes with high diastereoselectivity (eq 52). Of the auxiliaries surveyed, the phenylalanine-derived oxazolidinones provided the highest diastereoselectivities. This methodology has been recently extended to complex intramolecular processes (eq 53). In this case, use of the unsubstituted achiral oxazolidinone favored the undesired diastereomer. 

Synthesis of Substituted Pyrrolidines. A cycloaddition/red-uction sequence between nitroalkenes and vinyl ethers derived from DCP, i.e., 2 can effect the enantioselective synthesis of substituted pyrrolidines. 2-Substituted 1-nitroalkenes undergo highly efficient and diastereoselective Lewis-acid-promoted [4 + 2] cycloaddition with DCP-derived vinyl ethers to afford cyclic ni-tronates 5 in high yields. Subsequent reduction with Pt02 (7.5 mol%), under 160 psi of H2 at room temperature for 24 h, affords the optically active 3-substituted pyrrolidines (6) (71-97%, both as the free base and V-protected derivatives), and the chiral auxiliary 1 (eq 3). 

The choice of Lewis acid promoter for these reactions can change the sense of asymmetric induction. " For example, tandem [4 + 2]/ [3 + 2] cycloadditions (eq 4) mediated by Ti(0-i-Pr)2Cl2, followed by hydrogenolysis afforded tricyclic (-)-a-hydroxy lactam [(-)-8] in 98% ee. When mediated by methyl-aluminum-bis(2,6-diphenylphenoxide) (MAPh), the same reaction gave (+ )-8 in 93% ee. Importantly, the observed selectivity is not chiral auxiliary dependent. Rather, it is attributed to a highly endo selective cycloaddition in the case of Ti compared to high exo selectivity in the case of MAPh. 

Diels-Alder Cycloadditions (AUcene -+ Six-Membered Cycloadduct). lV-Acryloyl-a-methyltoluene-2,a-sultam (3a) participates in highly endo and C(a)-re ir-face selective Lewis acid promoted Diels-Alder reactions with Cyclopentadiene, 1,3-Butadiene, and Isoprene (eq 2 and Table 1). These levels of induction compare favorably with most alternative auxiliaries, including the 10,2-camphorsultam. However, V-crotonyl-a-methyltoluene-2,a-sultam (ent-3b) reacts with cyclopentadiene with only mod-... 

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