Chiral auxiliary pyrrolidine derivative

Many chiral auxiliaries are derived from 1,2-amino alcohols [7], including oxazolidinones (1) [7-9], oxazolines (2) [10,11], bis-oxazolines (3) [12,13], oxa-zinones (4) [14], and oxazaborolidines (5) [15-17]. Even the 1,2-amino alcohol itself can be used as a chiral auxiliary [18-22]. Other chiral auxiliary examples include camphorsultams (6) [23], piperazinediones (7) [24], (S)-l-amino-2-(methoxymethyl)-pyrrolidine (SAMP) (8) and (R)-l-amino-2-(methoxymethyl)-pyrrolidine (RAMP) [25], chiral boranes such as isopinocampheylborane (9) [26], and tartaric acid esters (10). Some of these auxiliaries have been used as ligands... 

As well as the disubstituted C2-symmelrie pyrrolidines E and F, the monosubstituted (f> )-2-(mcthoxymethyl)pyrrolidine G can be used as chiral auxiliary for the diastereoselecti ve addition of organomctallic reagents to a-oxo amides16. As with the phenylglyoxylic acid derivatives derived from amines E and F. methyllithium or methylmagnesium bromide in diethyl ether preferentially attack the (,S)-mms-conformer 11 (R = ( 6H5), leading to predominant formation of the (2 S)-diastercomer by Re-side attack. 

Analogous rearrangement occurs under much milder conditions when the reactant is a zwitterion generated by deprotonation of an acylammonium ion. Substituted pyrrolidines were used as the chiral auxiliary, with the highest enantioselectivity being achieved with a 2-TBDMS derivative.267... 

As with the above pyrrolidine, proline-type chiral auxiliaries also show different behaviors toward zirconium or lithium enolate mediated aldol reactions. Evans found that lithium enolates derived from prolinol amides exhibit excellent diastereofacial selectivities in alkylation reactions (see Section 2.2.32), while the lithium enolates of proline amides are unsuccessful in aldol condensations. Effective chiral reagents were zirconium enolates, which can be obtained from the corresponding lithium enolates via metal exchange with Cp2ZrCl2. For example, excellent levels of asymmetric induction in the aldol process with synj anti selectivity of 96-98% and diastereofacial selectivity of 50-200 116a can be achieved in the Zr-enolate-mediated aldol reaction (see Scheme 3-10). 

Enders and Lotter174) developed an asymmetric synthesis of a-hydroxyketones and vicinal diols using the (S)-proline derivative (S)-l-formyl-2-methoxymethyl-pyrrolidine as chiral auxiliary. However, the a-hydroxyketones and vicinal diols, respectively, were only obtained with low stereoselectivity. 

Kolb and Barth 229) synthesized oc-substituted optically active amines or amino acids (223). Again the authors employed a derivative of naturally occurring (S)-proline, namely (—)-(S)-l-dimethoxymethyl-2-methoxymethyl-pyrrolidine (221) as chiral auxiliary agent. The metalation of the amidines (160) leads to azaallyl anions homologous with (222). After alkylation and hydrolysis, the desired a-substituted amines and amino acids, respectively, are obtained with some stereoselectivity. 

The (R)-enantiomer of (242) has also been prepared and used as a chiral auxiliary in an enantioselective aldol synthesis of (+)-(S )-gingerol (79CB3703). (R )-Glutamic acid (246) was thus converted into (i )-pyroglutamic acid by simply heating in water. Conversion of (247) to its methyl ester and LAH reduction delivered alcohol (248). Ethyl nitrite treatment of (248) gave nitrosoamine (249), which was methylated to furnish (250). Exposure of (250) to LAH completed the synthesis of the required chiral auxiliary RAMP [(R)- l-amino-2-(methoxymethyl)pyrrolidine]. The hydrazone (252), derived from RAMP and acetone, was... 

Amides of (S)-lactic acid have been used as chiral auxiliaries in the dynamic kinetic resolution of racemic ibuprofen (Scheme 23.9).56 The therapeutically effective (S)-isomer 33 was obtained in 80% yield, with complete recovery of the pyrrolidine-derived (S)-lactamide auxiliary 34. 

Cyclic nitrones generated by [4+ 2]-cycloaddition of nitroalkenes undergo various, synthetically very valuable reactions. Thus, Denmark et al. have developed an elegant access to different enantiopure, 3- and 3,4-substituted pyrrolidine derivatives by reductive ring contraction of the cyclic nitrone resulting from a hetero Diels-Alder reaction [389,390]. Upon reaction of -2-nitrostyrene 4-51 with the chiral enol ether 4-52 in the presence of the bulky Lewis acid MAPh (4-53), three diastereomeric cycloadducts 4-54, 4-55 and 4-56 were formed. Hydrogenolysis of the main product 4-54 yielded the desired pyrrolidine 4-57 in excellent optical purity and allowed nearly quantitative recovery of the chiral auxiliary (Fig. 4-12) [391]. It is noteworthy that the nature of the Lewis acid catalyst, especially its steric demand, decisively influences the stereochemical course of such cycloadditions [392]. 

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... 

Better yields, but lower enantiomeric excesses, were obtained by an alternative method, the cycloaddition of ethoxycarbonyl azide, followed by irradiation to give the aziridine64. Interestingly, the opposite configuration at the stereogenic center was formed by the two methods. The enantiomeric excess of the product was determined by ketalization with (2/, 3/ )-2,3-butanediol and GC or l3C-NMR analyses of the reaction mixture. The choice of the chiral auxiliary is crucial unfortunately, the enamine derived from //ww-2,5-dimethyl pyrrolidine does not react with either the nitrene or the azide. 

Chiral pyrrolidine derivatives as chiral auxiliaries 90YGK982. 

Chiral Amines with C2 Symmetry, trans-2,5-Dimethylpyrrolidine (1) was the first chiral amine possessing C2 symmetry used as a chiral auxiliary in asymmetric synthesis. Since that time a number of related systems have been developed including the title compound (2) and (4). These amines were developed as C2-symmetric analogs to the commercially available prolinol derivative (5). While proline-derived chiral auxiliaries have been widely used in asymmetric synthesis, the C2-symmetric chiral auxiliaries often give enhanced stereoselectivity when compared directly to the prolinol derivatives. Unfortunately the preparation of the C2-symmetric compounds is more tedious and, at the time of writing, none are commercially available. For example, the standard route to chiral pyrrolidines (2) and (3) involves the resolution of tranf-N-benzylpyrrolidine-2,5-dicarboxylic acid, although other preparations have been... 

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). 

More recently Katsuki and coworkers have reported that (Z)-enolates of a-alkyl and a-heterosub-stituted amides such as (134), derived from pyrrolidine derivatives having a C2 axis of symmetry, undergo very diastereoselective alkylations with secondary alkyl and other alkylating agents in good to excellent chemical yields (Scheme 62) As with prolinol ether amide enolates, it appears that the direction of approach of the alkylating agent to the enolate (134) is controlled mainly by steric factors within the chiral auxiliary, i.e. chelation effects seem to be of little importance. 

As pointed out in an earlier section, the ees for the asymmetric hydroxylation of acyclic enolates derived from a-branched carbonyl compounds is often low because of the difficulty in generating a specific enolate geometric isomer as well as poor enantiofacial discrimination between the re and si faces of the enolate (Scheme 25). In one example of a double stereodifferentiation process, the asymmetric oxidation of a chiral enolate, was successfully employed to circumvent these difficulties <87JOC5288>. For the matched pair, (—)-(179) and oxaziridine (—)-(114), the de was 88-91% (Equation (43)) whereas with the mismatched pair, (—)-(179) and (+)-(114), the de dropped to 48.4%. The pyrrolidine methanol chiral auxiliary in (180) was removed without racemization by basic hydrolysis affording nonracemic atrolactic acid in 70-89% yield. 

Chiral auxiliaries derived from (S)-proline appeared to be particularly attractive since they possess conformationally rigid pyrrolidine ring(s), a prerequisite to the above specified criteria. In this chapter highly stereoselective asymmetric reactions, employing the chiral diamines 1 and chiral diamino alcohols 2 and 3 (Fig. 1),... 

An interesting use of removable chiral auxiliaries in photocycloaddition reactions concerns imminium salts. With cyclic enones, the observed asymmetric induction does not result from an approach of the double bonds in parallel planes because of the triplet nature of the reactive excited state. In contrast, the corresponding imminium salts react through their singlet excited state, and an approach of the reactants in parallel planes is now required during the cycloaddition process. For chiral imminium salts 130 derived from a cyclohexenone and a pyrrolidine having a C2 axis of symmetry, the intramolecular [2 -I- 2] photocycloaddition process occurs with a de up to 82%. As expected, the stereochemis-... 

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