Pyrrolidines, 2,5-disubstituted synthesis

They have developed direct asymmetric synthesis of quaternary carbon centers via addition-elimination process. The reactions of chiral nitroenamines with zinc enolates of a-substituted-8-lactones afford a,a-disubstituted-6-lactones with a high ee through addition-elimination process, in which (5)-(+)-2-(methoxy methy l)pyrrolidine (SMP) is used as a chiral leaving group (Eq. 4.96).119 Application of this method to other substrates such as a-substituted ketones, esters, and amides has failed to yield high ee. 

P-Lactams have been used as a synthon for the preparation of a vast array of compounds. It has been reported that the reduction of 4-(haloalkyl)azetidin-2-ones with LiAlhL is a powerful method for the synthesis of stereodefined aziridines and azetidines <06OL1101>. However, reduction of 4-(haloalkyl)azetidin-2-ones with chloroalane afforded 2-(haloalkyl)azetidines, which were rearranged to 3,4-cw-disubstituted pyrrolidines and piperidines 32 <060L1105>. During these rearrangements, bicyclic azetidinium intermediates were formed which were ring opened by halides. The synthesis of a peptide-... 

The reaction of nitrones with 3-butenylmagnesium bromide was used in the diastereoselective synthesis of cis -2,5-disubstituted pyrrolidines, arising from a Cope retro-elimination (Scheme 2.145) (Table 2.11) (201, 572). 

Dipolar cycloaddition reactions between three A-benzyl-C-glycosyl nitrones and methyl acrylate afforded key intermediates for the synthesis of glyco-syl pyrrolidines. It was found that furanosyl nitrones (574) and (575) reacted with methyl acrylate to give mixtures of all possible 3,5-disubstituted isoxazolidines (577) and (578). On the other hand, the reaction with pyranosyl nitrone (576) was much more selective and cycloaddition at ambient temperatures afforded only one of the possible Re-endo adducts (579a). The obtained isoxazolidines were transformed into the corresponding (V-benzyl-3-hydroxy-2-pyrrolidinones (580—582) on treatment with Zn in acetic acid (Scheme 2.264) (773). 

The ene reaction offers great possibilities in the synthesis of 3,4 disubstituted pyrrolidines or piperidines (775). An illustration of this reaction is a short and selective synthesis of allokainic acid by Oppolzer and Andres (176) (Scheme 31). In subsequent work, the influence of the double-bond geometry in the... 

The presence of a pyrrolidine unit in complex systems such as the azabicy-clo[2.1.1]hexane unit of 2,4-methanoproline (56) lends itself to synthesis pertaining to the 1,3-disubstituted cyclobutane part of the molecule. Thus two syntheses of 56 have been published, relying on the [2 + 2] photochemical synthesis of cyclobutanes. A nontrivial problem of the synthesis of these compounds is liberation of the target molecule from its protective groups (Scheme... 

This method for preparing 2-phenyl-1-pyrroline, and assorted 2-substituted 1-pyrrolines, is one of the best currently available, particularly because it reproducibly affords clean materials. Generally, the procedure is amenable to various aromatic esters 2 it has also been applied successfully to aliphatic esters (Table I).3 An advantage of this method is the use of readily available, inexpensive N-vinyl-pyrrolidin-2-one as a key starting material. This compound serves effectively as a 3-aminopropyl carbanion equivalent. The method illustrated in this procedure has been extended to include the synthesis of 2,3-disubstituted pyrrolines. Thus, alkylation of the enolate of the intermediate keto lactam, followed by hydrolysis, leads to various disubstituted pyrrolines in good yields (see Table II).3... 

Shibata and co-workers have reported an effective protocol for the cyclization/hydrosilylation of functionalized eneallenes catalyzed by mononuclear rhodium carbonyl complexes.For example, reaction of tosylamide 13 (X = NTs, R = Me) with triethoxysilane catalyzed by Rh(acac)(GO)2 in toluene at 60 °G gave protected pyrrolidine 14 in 82% yield with >20 1 diastereoselectivity and with exclusive delivery of the silane to the G=G bond of the eneallene (Equation (10)). Whereas trimethoxysilane gave results comparable to those obtained with triethoxysilane, employment of dimethylphenylsilane or a trialkylsilane led to significantly diminished yields of 14. Although effective rhodium-catalyzed cyclization/hydrosilylation was restricted to eneallenes that possessed terminal disubstitution of the allene moiety, the protocol tolerated both alkyl and aryl substitution on the terminal alkyne carbon atom and was applicable to the synthesis of cyclopentanes, pyrrolidines, and tetrahydrofurans (Equation (10)). 

A number of complex heterocycles have been assembled using dipolar cycloadditions (Fig. 6). The Affymax group [32] published an approach to the synthesis of tetrasubsti-tuted pyrrolidines by the reaction of azomethine ylids with electron-deficient olefins. A similar approach was described by researchers at Monsanto however, the aldehyde component was bound to the resin instead of the amino acid [33]. Kurth and co-workers [34] described a route to 2,5-disubstituted tetrahydrofurans using a nitrile oxide cycloaddition as the key reaction. Mjalli et al. [35] synthesized highly substituted pyrroles using the dipolar cycloaddition of intermediate 5 with mono- or disubstituted acetylenes. 

A chemoselective addition of allylic alcohols (82) to 3-halogenovinyl sulfones (81) has been accomplished using KF-basic alumina as the basic medium.55 The resulting adducts (83) can be stereoselectively cyclized by a radical process, affording 2,4-disubstituted tetrahydrofurans (84) (Scheme 22, Eq. 1). The same group has recently reported an analogous protocol using allylic amines (85) for the synthesis of 2,4-disubstituted pyrrolidines (87) (Scheme 22, Eq. 2)56... 

The most recent formal asymmetric synthesis of (+)-anatoxin-a was achieved through a highly diastereoselective [2+2] cycloaddition of dichloroketene with a chiral enol ether(63 Scheme 7.15) in order to reach the general stracture of 2,5-disubstituted pyrrolidine (66) for generating the acyliminum ion and getting the required bicycle skeleton (67) (Muniz et al. 2005). 

The second reported synthesis was by Martin and co-workers (Breimeman and Martin 2004 Brenneman, Machauer, and Martin 2004 Martin 2005). Fundamentally, this synthesis differs with respect to the previous one in the strategy for achieving the synthesis of the c/5-2,5-disubstituted pyrrolidine 71 (Scheme 7.17). The starting product in this case was the D-methyl pyroglutamate. 

A method for the enantioselective synthesis of the ftmctionalised carbapenam core 38 from D-serine-derived pyrrolidines has been reported <03JOC187>. Disubstituted pyrrolidines, obtained from the retro Dieckmann reaction of azabicyclo[2.2.1]heptan-2-one-1-carboxylic acid methyl esters, have been used as starting materials to develop concise syntheses of all four stereoisomers of carbapenam-3-carboxylic acid methyl esters <03JOC2889>. The synthesis of 1-methylcarbapenams 39 by intramolecular attack of lactam nitrogen on a 77 -propargylpalladium complex has been reported <03JOC8068>. 

In order to maximize yields and regioselectivity in the Friedlander synthesis of quinolines, the bicyclic pyrrolidine base l,3,3-trimethyl-6-azabicyclo[3.2.1]octane (TABO) was utilized to good effect. TTie reaction was carried out with unactivated methyl ketones <03JOC467>. The ratios of the two products were 86% 2-substituted and 14% 2,3-disubstituted. 

Disubstituted pyrrolidines 2 were similarly prepared, but the degree of stereocontrol was dependent on the steric bulk of the substituents25. The configuration of the single or the prevalent diastereomer obtained was not determined, but is most probably cis by analogy with 1. Furthermore, the method has been exploited in the stereoselective synthesis of ( + )-iV-methylanisomycin via the 2,3,4-trisubstituted pyrrolidine 4, obtained by the cyclization of the 4-alkenylamine 365. Notably, the cyclization of 3 did not occur in the presence of butyllithium alone. 

Denmark and Marcin showed that 2,2-disubstituted 1-nitroalkenes undergo facile MAD-promoted [4 -r 2] cycloaddition with n-butyl vinyl ether in toluene at 0 °C to give cyclic nitronates as anomeric mixtures in good yield [173]. This method is a promising route to the stereoselective synthesis of disubstituted pyrrolidines and can thus be applied to the synthesis of the biologically active pyrrolidine alkaloid, mesembrine (Sch. 134). 

Scheme 8-24 Stereocontrolled synthesis of cis and trans 2,5-disubstituted pyrrolidines.

Carretero and co-workers found that dqjrotection and cyclization of the vinyl-sulfone 294 produced a 4 1 mixture of 2,3-cu-disubstituted pyrrolidine 295 and its tram isomer (Scheme 40). A/-Alkylation of the nuxture. with 3-chloro-2-chloro-methylprop-l-ene followed by chromatogttqjhy led to isolation of the pure 2,3-c/s product 296, silylation and base-initiated cyclization of which gave indolizidine 297. Ozonolysis and elimination of the sulfone group yieldied another pivotal intermediate, the bicyclic enone 298. Reduction with L-Selectride afforded an inseparable nuxture of two diastereomeric alcohols 299 (9 1). Separation was accomplished only after dihydroxylation with osmium tetroxide and peracetylation of the resdting tetrols. The synthesis of ( )-241 was completed by hyc lysis of the m or tetraacetate 300. 

Treatment of azidoketones 8 with triphenylphosphine led to the formation of pyrrolidine 9 via a Staudiner-aza-Wittig reductive cyclization <05JOC4751>. The latter were converted into 2,3-disubstituted pyrroles 10 upon heating. Azidoketones 8 were prepared by the novel condensation of 1,3-bis-sUyl enol ethers 6 with azidoacetal 7. This sequence was exploited for the synthesis of a cyclododecyl-fused pyrrole. 

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