Azadienes, chiral Diels-Alder reaction

In 1996, the first example of the catalytic enantioselective aza Diels-Alder reactions of azadienes using a chiral lanthanide catalyst was reported [4], In this article, successful examples of such catalytic reactions are surveyed. 

Another successful aza Diels-Alder reaction involves 2-azadienes of type 125 with dienophile 126 in the presence of bis(oxazoline) catalyst 106a.53 Product 127 is obtained in a high exo endo ratio, as well as high enantiomeric excess for the exo-isomer of 127. The high enantioselectivity and high yield rely on the chiral catalyst 106a, which activates the dienophile by complexation with an appropriate functional group and does not irreversibly coordinate with the... 

He M, Bode JW (2005) Catalytic synthesis of y-lactams via direct annulations of enals and N-sulfonylimines. Qrg Lett 7 3131-3134 He M, Struble JR, Bode JW (2006) Highly enantioselective azadiene Diels-Alder reactions catalyzed by chiral N-heterocyclic carbenes. J Am Chem Soc 128 8418-8420... 

The Diels-Alder reaction of 2-azadienes also benefits from the presence of an electron-donating substituent, to enhance the reactivity with electron-deficient dienophiles. Cycloaddition with alkynyl dienophiles and aromatization leads to substituted pyridines (3.54). Silyloxy-substituted 2-azadienes such as 68 are effective dienes and have been used to prepare substituted 2-pyridones and piperidones after methanolysis (3.55). Asymmetric hetero Diels-Alder reactions with the chiral Lewis acid catalyst 66 provide access to the piperidone products with very high enantioselectivity. ... 

Bode, et al. developed a highly enantioselective azadiene Diels-Alder reactions catalyzed by chiral A-heterocyclic carbenes. Scheme 3.28 [43]. Reactions of alkyl fra -4-oxo-2-butenoate 80 with A-sulfonyl imines 81 and catalyst 82 (10-15 mol%), DIPEA (10 mol%) in toluene-THF (10 1) at room temperature afforded the dihydopyridinones 83 in excellent diastereo- and enantioselectivity (>50 1 cw-diastereoselectivity, 99% ee). The LUMO -controUed inverse electron demand Diels-Alder cycloaddition was facilitated by NHC-carbene catalyst 82. Similar reactions without the catalyst would require high pressure (12 bar) or high temperature. The high cw-diastereoselectivity which would arise from (Z)-enolate reacting with the dienophile is rationalized as depicted in Scheme 3.28. 

Using a relatively simple chiral secondary amine catalyst (56), Chen prepared a series of highly functionalized enantiomerically pure piperidines via inverse electron demand hetero Diels-Alder reactions. For example, amine catalyst 56 reacts with unsaturated aldehyde 55 to fiimish a dienamine that functions as the electron-rich dienophile for combination with electron-poor 1 -azadiene 54 and provides piperidine 57 in high yield and enantiomeric... 

Lewis acids such as Cu(OTf)2, its chiral bisoxazoline complex Cu(oxaz)2(OTf)2, and BiCls catalyze the intramolecular Diels-Alder reaction of 1-azadienes (eq 21). The 2-cyano-l-azadienes (4), containing an electron rich enol ether dienophile component, undergo cycloaddition to give the oxazinopiperidines (5) in 59-80% yield. o... 

In the last decade, several excellent results were also published in the area of enantioselective nickel-catalysed Diels-Alder cycloadditions. Among them, the reactions of cyclopentadiene with 3-alkenoyloxazolidin-2-ones induced by (i )-BINIM-2QN provided cycloadducts in up to >99% yield, >98% de, and 96% ee. Another excellent result was achieved by using a chiral iV,iV -oxide-derived nickel catalyst in Diels-Alder cycloadditions of 3-vinylindoles with methyleneindolinones for the construction of chiral spiro[carbazole-oxindoles] in up to 97% yield, >98% de, and 98% ee. Moreover, the use of the chiral DBFOX-Ph ligand has allowed an inverse-electron-demand Diels-Alder reaction of a range of Af-sulfonyl-l-azadienes with vinyl ethers to be achieved, providing highly functionalised piperidines in up to 75% yield, 96% de, and 92% ee. 

Two general approaches to aza-Diels-Alder reactions have been reported. One incorporates the requisite nitrogen atom into the 2rt component (imine), while the other incorporates the requisite nitrc en in the 4rt component (azadiene). Chiral copper Lewis acids have been used with success in both approaches. Jorgensen and coworkers reported enantioselective imino Diels-Alder reactions catalyzed by CuC104 MeCN in the presence of phosphino-oxazoline (287) or BINAP (290) (Scheme 17.64) [93]. Phosphino-oxazoline (287) proved to be the ligand of choice in the aza-Diels-Alder reaction of N-tosyl a-imino ester (142) with Danishefsky s diene (286), while BINAP (290) gave the highest selectivity when dimethyl-substituted Danishefsky s diene (289) was used. 

The Povarov reaction, an inverse electron-demand aza-Diels-Alder reaction of 2-azadienes with electron-rich olefins, allows a rapid construction of polysubstituted tetrahydroquinolines. It must be noted that enantiose-lective versions of the Povarov reaction remain rare. Actually, the first highly enantioselective example of this type of reaction was developed by Zhu et al., in 2009. Later, Jacobsen et al. reported another enantioselective Povarov reaction catalysed by a combination of a strong Bronsted acid, such as o-nitrobenzene sulfonic acid, with a chiral urea. As shown in Scheme 2.8, the reaction of electron-rich alkenes with imines provided the corresponding tricyclic products in good yields, moderate diastereoselectivities of up to 62% de, and generally high enantioselectivities ranging from 90 to 98% ee. 

Thus, we have developed catalytic asymmetric aza Diels-Alder reactions of imines with alkenes using a chiral lanthanide Lewis acid, to afford 8-hydroxyquinoline derivatives in high yields with high diastereo- and enan-tioselectivities. The characteristic points of this reaction are as follows, (i) Asymmetric aza Diels-Alder reactions between achiral azadienes and dienophiles have been achieved using a catalytic amount of a chiral source, (ii) The unique reaction pathway, in which the chiral Lewis acid activates not dienophiles but dienes, is revealed. In most asymmetric Diels-Alder reactions reported using chiral Lewis acids, the Lewis acids activate dienophiles [64, 65]. However, inverse electron-demand asymmetric Diels-Alder reactions of 2-pyrone derivatives have been reported [72]. (iii) A unique lanthanide complex including an azadiene and an additive, which is quite different from the conventional chiral Lewis acids, has been developed. 

Toure and Hall described a three-component reaction involving the coupling of an aza Diels-Alder reaction with an in situ vinylboration that affords piperidines and their fused derivatives. Thus, treatment of azadiene 126 with the chiral sulfinimide dienophile 127 in the presence of benzaldehyde afforded compound 128 via the initial generation of boronate 129 (Scheme 3.38) [86], This method was later employed as the basis for the synthesis of the alkaloid (-) methyl dihydropalustramate [87],... 

In the reaction of benzylideneaniline with cyclopentadiene, the imine functions as an azadiene to yield the rearranged Diels-Alder adduct 77 (equation SI)44,453. In a study of the effect of various Lewis acids (ZnCl2, TiCU, Et2AlCl and SnCU) on diastereoselective cycloadditions of Danishefsky s diene to the imines 79, obtained from the chiral aldehydes 78 (R = MeO or Cl), it was found that SnCLj was the most effective, giving the optically active products in high yields and excellent ee values (equation 52)46. 

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