Indolines cyclization

The first total synthesis of 87 was published in 1990 (90TL1523). 5-Hydroxyindole (88) was mesylated and then reduced with sodium cyanoborohydride to give an indoline which was brominated to afford the bromoindoline 89 in good yield (Scheme 33). Cross-coupling with ortho-formyl boronic acid under Suzuki conditions, followed by air oxidation of the resulting cyclized product, followed by reduction of the lactam formed with excess Red-Al gave the target compound 87. 

The reaction of methane tricarboxylate with indoline 342 gave the tricyclic derivative 361 which can be transformed to the amide derivatives 362 (97JHC969). Alkylation of the iV-benzyl indoline 360 with pentafluor-oacetone gave 363 which upon debenzylation and subsequent acylation with diketene followed by cyclization gave 364. Other haloacetones were used to prepare different halogenated derivatives (79BEP872311) (Scheme 63). 

Heterocyclic systems, such as the substituted indoline illustrated below,13 may also be constructed via cyclization of unsaturated organolithiums and a recent review of the preparation of nitrogen- and oxygen-containing heterocycles via this approach is available.14... 

Buchwald has developed a route to indolines by the Pd-catalyzed intramolecular amination of aryl halides <96T7525> and applied this method to the synthesis of natural products. Thus, cyclization of tetrahydroquinoline 70 provided 71 which was elaborated to a key intermediate in syntheses of damirones A and B and makuluvamine <96JA1028>. 

A novel approach to 3-substituted indolines and indoles via the anionic cyclization of 2-bromo-lV,lV-diallyanilines has been developed simultaneously by Bailey <96JOC2596> and Liebeskind <96JOC2594>. Thus, treatment of 2-bromo-lV,lV-diallylanilines 78 with 2 equivalents of BuLi at -78 °C leads to the formation of the intermediate 79 which may be trapped with an electrophile to afford 3-substituted indolines 80. Aside from ease of preparation, an additional benefit of the intramolecular carbolithiation of <7-lithio-W,Al-diallyl-anilines is the production of Al-allyl-protected indolines, which are easily deprotected using... 

Bailey s group has elaborated a fourfold anionic domino approach leading to a N-allyl-3,4-disubstituted indoline 2-582 from 2-580 (Scheme 2.131) [300]. The central step is the formation of an aryne by treatment of 2-fluoro-N,N-diallylaniline (2-580) with nBuLi followed by a regioselechve intermolecular addition of nBuLi to give 2-581. This then cyclizes to afford a new lithiated species which is intercepted by added TMSCI. 

The unexpected formation of cyclopenta[b]indole 3-339 and cyclohepta[b]indole derivatives has been observed by Bennasar and coworkers when a mixture of 2-in-dolylselenoester 3-333 and different alkene acceptors (e. g., 3-335) was subjected to nonreductive radical conditions (hexabutylditin, benzene, irradiation or TTMSS, AIBN) [132]. The process can be explained by considering the initial formation of acyl radical 3-334, which carries out an intermolecular radical addition onto the alkene 3-335, generating intermediate 3-336 (Scheme 3.81). Subsequent 5-erafo-trig cyclization leads to the formation of indoline radical 3-337, which finally is oxidized via an unknown mechanism (the involvement of AIBN with 3-338 as intermediate is proposed) to give the indole derivative 3-339. 

In the course of our successful synthesis, we identified several limitations of our new method and associated strategy (1) the harsh conditions of the bicyclization reaction do not tolerate base-sensitive functionality such as vinyl halides (2) post-cyclization manipulations such as iododesilylation reactions are complicated by the sensitive/ reactive functionality of the products (a,p-unsaturated aldehyde, indoline, etc.) and (3) the incorporation of the required functionality into the Zincke aldehyde requires the synthesis of a complex tryptamine derivative, resulting in a lengthy, non-convergent route. In order to develop a concise route to strychnine, we would have to address each of these issues, and a straightforward solution to obviate all of these is described below. 

A novel procedure for the synthesis of an indole skeleton 81 was developed by Mori s group (Scheme 13).16e,16f Enantioselective allylic amination of 78 with A-sulfonated < r/ < -bromoaniline 79 followed by Heck cyclization of 80 provided chiral indoline 81. The treatment of a cyclohexenol derivative 78 with 79 in the presence of Pd2(dba)3-GHGl3 and ( )-BINAPO gave compound 80 with 84% ee in 75% yield. Total syntheses of (—)-tubifoline, (—)-dehydrotubifoline, and (—)-strychnine were achieved from compound 80. 

In Grigg s approach to hippadine (37), he established the connection between the two phenyl rings via the Stille-Kelly reaction [45]. When diiodide 35 was submitted to the Pd(0)/ditin catalyst system, the intramolecular cyclization was realized to establish the C—C bond in lactam 36. Oxidation of the indoline moiety in 36 using 2,3-dichloro-5,6-dicyano-l,4-benzoquinone (DDQ) then delivered hippadine (37). Analogously, the intramolecular Stille coupling of dibromide 38 led directly to hippadine (37) [46]. 

With Pd(0) generated in situ, the oxidative addition of aryl bromide 102 to Pd(0) proceeds to form Pd(II) intermediate 104. Migratory insertion of 104 then occurs to furnish the cyclized indoline intermediate 105. Subsequent reductive elimination of 105 takes place in a cis fashion, giving rise to exo-cyclic olefin 107, which then tautomerizes spontaneously to the thermodynamically more stable indole 103. The reductive elimination by-product as a palladium hydride species 106 reacts with base, regenerating Pd(0) to close the catalytic cycle. 

Snieckus described short syntheses of ungerimine (121) and hippadine by Suzuki couplings of boronic acid 118 with 7-bromo-5-(methylsulfonyloxy)indoline (116) and 7-iodoindoline (117), respectively [130]. Cyclization and aerial oxidation also occur. Treatment of 119 with Red-Al gave ungerimine (121) in 54% yield, and oxidation of 120 with DDQ afforded hippadine in 90% yield. Indoline 116 was readily synthesized from 5-hydroxyindole in 65% overall yield by mesylation, reduction of the indole double bond, and bromination. Indoline 117 was prepared in 67% yield from N-acetylindoline by thallation-iodination and basic hydrolysis. 

The application of Heck cyclizations to the synthesis of indoles, indolines, and oxindoles was discovered independently by Mori-Ban s [296-298], and Heck s groups [299]. These investigators found that Pd can effect the cyclization of o-halo-lV-allylanilines to indoles under Heck conditions [300], The cyclization of o-halo-/V-allylanilines to indojes is a general and efficient methodology, especially with the Larock improvements where he cyclized o-halo-W-allylanilines and o-halo-N-acryloylanilides into indoles and oxindoles [301]. For example, the conversion of 279 to 280 can be performed at lower temperature, shorter reaction time, and with less catalyst to give 3-methylindole (280) in 97% yield. Larock s improved conditions, which have been widely adopted, are catalytic (2%) Pd(OAc)2, n-Bu4NCl, DMF, base (usually... 

Grigg discovered that a 5-exo-dig Pd-catalyzed cyclization of IV-acetylenic-o-haloanilines 291 to give 3-exo-alkylidene indolines 292 occurs in the presence of a hydride source, such as formic acid [346]. The reaction is stereoselective and regiospecific. 

Larock extended this Pd-catalyzed diene heteroannulation to other dienes and anilines [399], including functionalized dienes leading to, for example, ketotetrahydrocarbazoles [400]. Back has employed 1-sulfonyl-l,3-dienes in this 2-vinylindoline synthesis [401], and the use of 1,3-dienes in constructing indolines has been adapted to the solid phase by Wang [402]. Interestingly, Larock has shown that the electronically-related vinylcyclopropanes undergo a similar cyclization with o-iodoanilines to form 2-vinylindolines, e.g., 310 [403, 404]. Vinylcyclobutane also reacts in a comparable manner. 

Grigg expanded his Pd-catalyzed cascade cyclization reactions to include carbonylation as the termination step [427]. Thus, indoline 329 is obtained in excellent yield and the spiroindoline 330 is secured as a single diastereomer. Thallium acetate results in significant improvement in these reactions by allowing for low-pressure carbonylation. 

Buchwald parlayed the powerful Buchwald-Hartwig aryl amination technology [439-447] into a simple and versatile indoline synthesis [448-452], For example, indole 368, which has been employed in total syntheses of the marine alkaloids makaluvamine C and damirones A and B, was readily forged via the Pd-mediated cyclization shown below [448], This intramolecular amination is applicable to the synthesis of -substituted optically active indolines [450], and o-bromobenzylic bromides can be utilized in this methodology, as illustrated for the preparation of 369 [451]. Furthermore, this Pd-catalyzed amination reaction has been applied to the synthesis of arylhydrazones, which are substrates for the Fischer indole synthesis [453,454],... 

The aryl radical cyclization has been successfully used for the preparation of substituted dihydrobenzo[Z)]indoline derivatives [59], An example is shown in Reaction (7.49). The diene 42 was preliminarly subjected to ring-closure metathesis using Grubbs catalyst and then treated with (TMS)3SiH and EtsB at -20 °C, in the presence of air, to provide the compound 43 with an excellent diastereoselectivity. 

The final phase of our syntheses of vinblastine and analogous compounds required closure of the piperidine ring in the seco cleavamine part of the indole-indoline compounds 162 and 163. We had originally studied this reaction with the simple indolic C-16 and C-20 unsubstituted C-16 epimeric carbomethoxy seco cleavamines 164 and 165 and found that on cyclization they produced, through conformations 166 and 167, almost exclusively quaternary salts 168 and 169, which on debenzylation gave... 

The synthetic scheme for functionalized indolines shown in equation 83 assumes formation of a doubly metallated intermediate (335), derived from V,iV-diallyl-2,6-dibromo-p-toluidine, that may be quenched to the dehalogenated toluidine 336, or may undergo cyclization to 337. Quenching of 337 with trimethylchlorosilane in the presence of TMEDA leads to formation of indoline derivatives 338 and 339. Apparently a second cyclization of intermediate 337 to compound 340 is hard to accomplish . 

The combination of allylic amination, ring-closing metathesis, and a free radical cyclization provides a convenient approach to the dihydrobenzo[b]indoline skeleton, as illustrated in Scheme 10.10. The rhodium-catalyzed aUylic amination of 43 with the lithium anion of 2-iodo-(N-4-methoxybenzenesulfonyl)arrihne furnished the corresponding N-(arylsulfonyl)aniline 44. The diene 44 was then subjected to ring-closing metathesis and subsequently treated with tris(trimethylsilyl)silane and triethylborane to afford the dihydrobenzojhjindole derivative 46a in 85% yield [14, 43]. 

Kita has introduced a novel one-pot preparation of 5-methoxylated indoline 55 and indole 56 derivatives by intermolecular addition followed by cyclization between A-tosylaniline derivatives 53 and activated olefins 54 using phenyliodine(III) bis(trifluoroacetate) (FIFA) <99H511785>. In the reaction of 53 with phenyl vinyl sulfides, indoles were produced directly by the spontaneous elimination of thiophenol. 

The tricyclic core of duocarmycin has been produced by a novel copper-mediated aryl amination reaction, which cleanly gives the cyclized product under exceptionally mild conditions <2003JA6630>. Selective /) tw-bromination of indoline with T-bromosuccinimide (NBS) in DMF followed by aryl amination using 2 equiv of copper iodide quantitatively provides the indolinone (Equation 71). 

Iodophenethylamine derivatives were found to undergo palladium catalysed cyclization to indolines.45 Starting from the appropriate tetrahydro-isoquinoline derivative the reaction was extended by Buchwald to the preparation of tricyclic natural products (3.37.),46... 

Many methods have been developed for the enantioselective synthesis of unnatural a-amino acids. Jeff Johnston of Indiana University reports (J. Am. Chem. Soc. 125 163,2003) coupling the asymmetric alkylation of O Donnell with intramolecular radical cyclization, leading to what appears to be a general method for the enantioselective construction of indolines. 

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