Amide oxindoles

An unusual case of addition of a carbanion to an unconjugated carbon-carbon double bond is shown in Scheme 47a. The subsequent transfer of the amide group is also noteworthy (80CC1042). The intramolecular addition of a carbanion to an aryne is a more widely established process. Such reactions have been applied to the synthesis of indoles (Scheme 47b) (75CC745> and oxindoles (Scheme 47c) (63JOC1,80JA3646). 

Although geneologically related to indoles, the dihydroindoles behave chemically rather like alkyl anilines. When diphenylamine reacts with chloro-propionyl chloride, amide 40 results this in turn readily cyclizes to oxindole 41. Sodium hydride followed by 2-chloroethyldimethylamine alkylates the 3-position (possibly through an intermediate aziridinium ion) partial demethylation is accomplished by refluxing with ethylchiorocarbonate, followed by hydrolysis of the intermediate carbamate to give indolinone 42, the antidepressant amedalin Repetition of this sequence on the chloropropyl homologue, followed by reduction of the appropriate indolinone produces dihydroindole 43, daledalin, which also has antidepressant activity. ... 

The cyclization of IV-allyl-o-haloanilines was adapted to the solid phase for both indoles [332, 333] and oxindoles [334]. For example, as illustrated below, a library of l-acyl-3-aIkyl-6-hydroxyindoles is readily assembled from acid chlorides, allylic bromides, and 4-bromo-3-nitroanisole [332], Zhang and Maryanoff used the Rink amide resin to prepare Af-benzylindole-3-acetamides and related indoles via Heck cyclization [333], and Balasubramanian employed this technology to the synthesis of oxindoles via the palladium cyclization of o-iodo-N-acryloylanilines [334], This latter cyclization route to oxindoles is presented later in this section. 

The perfluoroacetamide catalysts, rhodium(II) trifluoroacetamidate [Rh2(tfm)4] and rhodium(II) perfluorobutyramidate [Rh2(pfbm)4], are interesting hybrid molecules that combine the features of the amidate and perfluorinated ligands. In early studies, these catalysts were shown to prefer insertion over cycloaddition [30]. They also demonstrated a preference for oxindole formation via aromatic C-H insertion [31], even over other potential reactions [86]. In still another example, rhodium(II) perfluorobutyramidate showed a preference for aromatic C-H insertion over pyridinium ylide formation, in the synthesis of an indole nucleus [32]. Despite this demonstrated propensity for aromatic insertion, the perfluorobutyramidate was shown to be an efficient catalyst for the generation of isomtinchnones [33]. The chemoselectivity of this catalyst was further demonstrated in the cycloaddition with ethyl vinyl ethers [87] and its application to diversity-oriented synthesis [88]. However, it was demonstrated that while diazo imides do form isomtinchnones under these conditions, the selectivity was completely reversed from that observed with rhodium(II) acetate [89, 90]. 

Bonnaterre F, Bois-Choussy M, Zhu JP (2006) Rapid access to oxindoles by the combined use of an Ugi four-component reaction and a microwave-assisted intramolecular Buchwald-Hartwig amidation reaction. Org Lett 8 4351-4354... 

Activated A-alkyl-O-acylhydroxamic acid derivatives 75 undergo base catalysed rearrangement to give 2-acyloxyamides 76 in good to excellent yields (50-100%) (equation 26). These precursors of 2-hydroxy amides (77) are good intermediates to prepare ethanol-amines, oxindoles and oxazolidinediones. 

Oxindoles are prepared using a solid-phase Pummerer reaction. Thus, the immobilized amide 182 undergoes the Pummerer rearrangement on treatment with TFAA and boron trifluoride diethyl etherate (BF3 Et20) (Equation 118). Cleavage of the oxindole from the linker is achieved using samarium iodide and 1,3-dimethyl-3,4,5,6-tetrahydro-2(lH)-pyrimidinone (DMPU) <2003CC2380>. 

In the other example CO insertion was used to introduced a nC-labelled amide function onto a series of aryl and hetaryl rings including oxindole and the y -carboline skeleton (8.35.), In the latter cast the trapping efficiency of 11 CO was 98% and the isolated yield of the labelled product was also good46... 

There are several reports of methods that will selectively reduce a tertiary amide in the presence of a secondary amide[59]. The secondary lactam of 101 was protected as the lactim ether 107 and treated with diborane however, the spectral characteristics of the major products isolated were consistent with reduction of both the tertiary amide and the lactim ether. In 1991 Martin et al. [60] successfully used alane to reduce a tertiary amide in the presence of an oxindole (secondary amide) relying on the known rate difference for reduction between these two groups [61]. 

A series of pyrrolopyrroles 54 were prepared by cyclization of the amide 53 under basic conditions,56 and recently, cyclization of the related oxindole 55 was reported57 to give an analogous system 56. 

Turner and Poondra have described an efficient intramolecular one-pot and two-step Goldberg aryl amidation that gives access to useful AT-substituted oxindoles (Scheme 29) [96]. 

Scheme 29 A two-step preparation of substituted oxindoles via transient amide formation...

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