Chiral 3- indoles

Other indoles that have been prepared using the Sonogashira coupling and cyclization sequence include 5,7-difluoroindole and 5,6,7-trifluoroindole [219], 4-, 5-, and 7-methoxyindoles and 5-, 6-, and 7-(triisopropylsilyl)oxyindoles [220], the 5,6-dichloroindole SB 242784, a compound in development for the treatment of osteoporosis [221], 5-azaindoles [222], 7-azaindoles [160], 2,2-biindolyls [223,176], 2-octylindole for use in a synthesis of carazostatin [224], chiral indole precursors for syntheses of carbazoquinocins A and D [225], a series of 5,7-disubstituted indoles [226], a pyrrolo[2,3-eJindole [226], an indolo[7,6-g]indole [227], pyrrolo[3,2,l-y]quinolines from 4-arylamino-8-iodoquinolines [228], optically active indol-2-ylarylcarbinols [229], 2-alkynylindoles [176], 7-substituted indoles via the lithiation of the intermediate 2-alkynylaniline derivative [230], and a variety of 2,5,6-trisubstituted indoles [231], This latter study employs tetrabutylammonium fluoride, instead of Cul or alkoxide, to effect the final cyclization of 215 to indoles 216 as summarized here. 

Another substrate class, for which the outcomes of a radical and a carbocationic process are opposite, are indoles (Fig. 85) [418], Indeed, when oxaziridines 315a or 315c were treated with indoles 314c in the presence of 2 or 10 mol% of C11CI2/ TBAC oxazolidinoindolines 316c were obtained as the exclusive products in 53-90% yield. The reaction is applicable to 2-, 3-, and 2,3-disubstituted indoles. Chiral indole derivatives acylated with (S)-proline units at nitrogen underwent asymmetric diastereoselective aminohydroxylation reactions with 86-91% de. Tricyclic hemiaminals derived from tryptamine derivatives could be transformed to pyrrolidinoindolines, which are core structures of a number of alkaloids. 

Chiral indole-2-sulfoxides have been employed by Feldman and Karatjas for asymmetric spirooxindole synthesis [70]. In one example, treatment of 115 with triflic anhydride initiated a Pummerer-type cyclization of the silyl enol ether side chain onto C3 (Scheme 30). Sequential hydrolysis of the resulting thioimidate intermediate with aqueous HgCl2 afforded the spirocyclohexanone functionalized oxindole 116 in modest yield and enantioselectivity at —78°C (33, 67% ee). Improved selectivity (58, 86% ee) was observed at lower reaction temperature (-110°C). 

Scheme 30 Pummerer-initiated cyclization of chiral indole-2-sulfoxide...

The Michael addition of aldehydes to indolylnitroalkenes led to chiral indol-substituted 4-nitro-2-allq lbutanals in high yield and diastereo- and enantiomeric purities.In our laboratory, we have investigated Michael additions of ojyacetaldehydes to nitroalkenes. ... 

The chiral indole-substituted alcohols were obtained in moderate to good yields and enantiomeric excesses of up to 94%. Conveniently, catalyst 22 could be used in five repetitive cycles without losing its catalytic power. 

L-Tryptophan is an essential amino acid that provides the biosynthetic precursor for many naturally occurring indole alkaloids [36]. The ability to synthesize enantiomerically pure tryptophan analogs substituted in the benzenoid ring constitutes a useful approach toward the total synthesis of chiral indole alkaloids of natural and nonnatural origin. Consequently, it provides a general entry into the nonnatural amino acid derivatives of potential pharmacologic value [37]. Hino has demonstrated [38] the powerful utility of cyclic tryptophan tautomers as intermediates for direct functionalization of chiral tryptophans. Cyclic tautomers allow standard electrophilic substitution at 5 position... 

SCHEME 6.16 Primary amine 128-catalyzed multicomponent reaction, to give chiral indole derivatives 129 [43]. 

You and coworkers employed 4,7-dihydroindoles 79 instead of indoles 75 in the Friedel-Crafts reaction with nitroalkenes 77 (Scheme 11.22) [41]. Catalyst Ig with a 9-anthryl group displayed excellent performance. The notable point in this reaction is the use of the syringe pump technique to achieve high enantioselectivities and suppress the background reaction. Subsequent oxidation of Friedel-Crafts adducts 80 by p-benzoquinone afforded 2-substituted indole derivatives 81 in excellent yields without racemization. This approach and the simple asymmetric Friedel-Crafts reaction of indoles are complementary methods for obtaining the different substitution patterns of chiral indole derivatives. 

In 2008, Chi et al. reported a tandem reaction of indoles, a,P-unsaturated aldehydes, and methyl vinyl ketone (MVK) for the synthesis of chiral indole derivatives with two stereogenic centers [ 19]. To avoid the interference of the two secondary amine catalysts and cocatalyst acid, the soluble star polymer-based site isolatbn method was adopted, whereby the supported imidazolidinone catalyst promoted initial Friedel-Crafts alkylation and the supported pyrrolidine derivative promoted the following Michael addition to MVK (Scheme 9.19). Notably, simple combination of these catalysts in one pot didn t mediate the cascade reaction efficiently despite the fact that the MacMillan imidazolidinone and pyrrolidine catalyst can efficiently promote separate Friedel-Crafts reaction and Michael addition, respectively. Moreover, when the pyrrolidine catalyst was replaced by its enantiomer, a diaste-reomer of the product could be obtained with high enantioselectivity. This smdy presented a novel solution to the efficient combination of incompatible substrates and catalysts. 

Asymmetric Friedel-Crafts alkylations of indoles with a,p-unsaturated carbonyl compounds have been and continue to be of significant interests in synthesizing chiral indole alkaloids. Following the very successful iminium-catalysis with enals by MacMillan s catalyst [47], Chen and Melchiorre have independently reported asymmetric Friedel-Crafts alkylation of indoles with a,P-unsaturated aryl ketones [48] using similar cinchona-alkaloid derived catalysts 77 and 91, respectively (Scheme 5.24) [49]. In both cases, the proper choice of an acidic additive has been shown to be essential for catalytic activity and stereoselectivity. 

Asymmetric cyclization using chiral ligands has been studied. After early attempts[142-144], satisfactory optical yields have been obtained. The hexahy-dropyrrolo[2,3-6]indole 176 has been constructed by the intramolecular Heck reaction and hydroaryiation[145]. The asymmetric cyclization of the enamide 174 using (S j-BINAP affords predominantly (98 2) the ( )-enoxysilane stereoisomer of the oxindole product, hydrolysis of which provides the ( l-oxindole aldehyde 175 in 84% yield and 95% ec. and total synthesis of (-)-physostig-mine (176) has been achieved[146]. 

Saturation of the aromatic ring of pentopril analogues is also consistent with ACE inhibition as demonstrated by the oral activity of indolapril (23). The necessary heterocyclic component (21) can in principle be prepared by catalytic perhydrogenation (Rh/C, HOAc) of the corresponding indole. A single isomer predominates. The product is condensed by amide bond formation with the appropriate alanylhomophenylalanyl dipeptide ester 20 to give 22. Selective saponification to 23 could be accomplished by treatment with HCl gas. Use of the appropriate stereoisomers (prepared by resolution processes) produces chiral indolapril [8]. 

This suite of BVMOs is available via whole-cell expression systems and represents a complementary platform of biocatalysts for diverse applications in chiral synthesis. Representatives of this collection were utilized in the enantiodivergent synthesis of the indole alkaloids alloyohimbane and antirhine from a fused bicyclic precursor (Scheme 9.19) [151]. 

Hepatite Virus NS3/4A having the pyrrolidine-5,5-trans-lactam skeleton [83], starting from (R)- and (S)-methionine, respectively. The key step is the addition of the proper silyl ketene acetal to an iminium ion, e.g., that generated by treatment of the intermediate 177 with boron trifluoride, which provided the adduct 178 with better diastereoselectivity than other Lewis acids. Inhibitors of hepatitis C virus NS3/4A were efficiently prepared by a similar route from (S)-methionine [83]. The addition of indole to a chiral (z-amino iminium ion was a completely diastereoselective step in a reported synthesis of tilivalline, a natural molecule which displays strong cytotoxicity towards mouse leukemia L 1210 [84]. 

Huang H, Peters R (2009) A highly strained planar chiral platinacycle for catalytic activation of internal olefins in the Eriedel-Crafts alkylation of indoles. Angew Chem Int Ed 48 604-606... 

Pseudo-C3-symmetrical trisoxazoline copper(II) complexes prove to be excellent catalysts in the Friedel-Crafts alkylation of indoles with alkylidene malonates (Eq. 7.13). Water tolerance of chiral catalyst trisoxazoline/Cu(OTf)2 was examined, and it was found that the addition of up to 200 equivalents of water relative to the catalyst in /,vo-butyl... 

Waldmann used (R) and (5>aminoacid methyl esters and chiral amines as chiral auxiliaries in analogous aza-Diels-Alder reactions with cyclodienes.111 The diastereoselectivity of these reactions ranged from moderate to excellent and the open-chain dienes reacted similarly. Recently, the aza-Diels-Alder reaction was used by Waldmann in the asymmetric synthesis of highly functionalized tetracyclic indole derivatives (Eq. 12.45), which is useful for the synthesis of yohimbine- and reserpine-type alkaloids.112... 

On the other hand, the nonbiogenetic approach usually adopts a convergent process such as shown in Scheme 15. When 18 is cleaved through C-6—C-7 (as 18 - 60), phenylhydrazine and a tricyclic moiety (61) which contains six chiral centers result. The synthetic problem then becomes synthesis of 61 followed by a Fischer indole synthesis and a final ring closure between C-6 and C-7 (61 -> 60 - 18). 

As illustrated in the conversion of 111 to 112 below, a variety of indoles bearing chirality at C3 was accessed by O Shea and co-workers by means of a (-)-sparteine directed enantioselective carbolithiation of 2-propenyl anilines, followed by electrophilic trapping-cyclization of the lithio intermediates <06JACS10360>. 

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