Indoles with amines

Changing the functionality on the alicyclic ring from an amine to a carboxylic acid leads to a compound that shows antiallergic activity, acting possibly by means of inhibition of the release of allergic mediators. Thus, condensation of acylated indole with cyclohexanone carboxylic acid affords directly oxarbazole (29). ... 

Contrary to an alkoxy benzene scaffold, secondary amides were generated via novel aldehyde linker 43 based upon an indole scaffold (Scheme 15) [52]. The indole resin was prepared from indole-3-carboxy-aldehyde in two steps and reacted with amines under reductive conditions to generate resin-bound secondary amines. Treatment of the resin with... 

Convert indole to indolyl-3-methyl-ketone (I) by treating indolyl-Mg-Br (preparation already described) with acetyl-Cl, by treating indole in POCl3 with dimethylacetamide (Vilsmeier reaction), or by reacting indole with diketene (ACS 22,1064(1968)). 15.9 g (1) in 50 ml methanol cool, stir and add dropwise 16 g Br2. Reflux 1 Vi hours on water bath cool, filter, wash with ether and recrystallize-methanol to get 18 g indolyl-3-Br-methyl-ketone (II). Dissolve 11.9 g (II) in 60 ml warm isopropanol and add 11 g 3 8% aqueous DMA (or equimoiar amount other amine) reflux one hour on water bath. Filter (recrystallize-ethanol) to get 8.5 g indolyl-3-dimethylamino-methyl ketone (III). Add 4.6 g (0.02 M) (III) in 30 ml tetrahydrofuran to 2.3 g lithium aluminum hydride in 50 ml tetrahydrofuran, stir one-half hour at room temperature and reflux two hours. Add a little water dropwise and extract the precipitate with acetone. Dry, evaporate in vacuum the combined organic phases to get an oil which will precipitate with ether-petroleum ether to give DMT. (Ill) should be tested for psychedelic activity. Dialkyltryptamines BCSJ 11,221 (1936), BSC 2291 (1966)... 

Abell utilized a Suzuki cross-coupling reaction on resin 153. Subsequent acid treatment effected cyclization to indole 154, which was readily cleaved with amines and alcohols to form potential libraries of amides and esters, respectively [162],... 

Methyl-4-(l-phenyl-l-phenylaminomethyl)-17/-indole (3e) Amine lb (0.54 g, 2 mmol) was treated with /BuLi (4.7 mL, 1.5 M solution in pentane, 7 mmol). /V-Benzylideneaniline (0.54 g, 3 mmol) was added and the mixture was treated as described above. DIBAL-H (2.0 mL, 1.5 M solution... 

Ehrlich p-Dimethylaminobenzaldehyde (100 g l"1) in cone. HC1. Mix 1 volume with 4 volumes of acetone. No heat required. Reacts within 20 min Trp Citrulline Pink/red Yellow Some indoles, aromatic amines and ureides react. Use after ninhydrin in multiple-dip sequences... 

A further example of the use of a chiral anion in conjunction with a chiral amine was recently reported by Melchiorre and co-workers who described the asymmetric alkylation of indoles with a,P-unsaturated ketones (Scheme 65) [212]. The quinine derived amine salt of phenyl glycine (159) (10-20 mol%) provided the best platform with which to perform these reactions. Addition of a series of indole derivatives to a range of a,P-unsaturated ketones provided access to the adducts with excellent efficiency (56-99% yield 70-96% ee). The substrates adopted within these reactions is particularly noteworthy. For example, use of aryl ketones (R = Ph), significantly widens the scope of substrates accessible to iminium ion activation. Expansion of the scope of nucleophiles to thiols [213] and oximes [214] with similar high levels of selectivity suggests further discoveries will be made. 

In addition, iodine snccessfnlly catalyzed the electrophilic snbstitntion reaction of indoles with aldehydes and ketones to bis(indonyl)methanes [225], the deprotection of aromatic acetates [226], esterifications [227], transesterifications [227], the chemoselective thioacetalization of carbon functions [228], the addition of mercaptans to a,P-nnsatnrated carboxylic acids [229], the imino-Diels-Alder reaction [230], the synthesis of iV-Boc protected amines [231], the preparation of alkynyl sngars from D-glycals [232], the preparation of methyl bisnlfate [233], and the synthesis of P-acetamido ketones from aromatic aldehydes, enolizable ketones or ketoesters and acetonitrile [234],... 

Two years after the discovery of the first asymmetric Br0nsted acid-catalyzed Friedel-Crafts alkylation, the You group extended this transformation to the use of indoles as heteroaromatic nucleophiles (Scheme 11). iV-Sulfonylated aldimines 28 are activated with the help of catalytic amounts of BINOL phosphate (5)-3k (10 mol%, R = 1-naphthyl) for the reaction with unprotected indoles 29 to provide 3-indolyl amines 30 in good yields (56-94%) together with excellent enantioselec-tivities (58 to >99% ee) [21], Antilla and coworkers demonstrated that A-benzoyl-protected aldimines can be employed as electrophiles for the addition of iV-benzylated indoles with similar efficiencies [22]. Both protocols tolerate several aryl imines and a variety of substituents at the indole moiety. In addition, one example of the use of an aliphatic imine (56%, 58% ee) was presented. 

BINOL phosphate (5)-3o (10 mol%, R = 2,4,6- PTj-C Hj) turned out to be the catalyst of choice and gave iV-acetylated 3-indolyl amines 128 bearing a qnatemary stere-ogenic center in excellent yields (94-99%) with high enantioselectivities (73-97% ee). Enamides derived from aryl-methyl ketones as well as indoles with varions substitnents conld be employed. 

As lactams of 4-amino-3-oxobutanoic acids, tetramic acids react with amines (87JPJ858) and with phenylhydrazine. The latter reaction is catalyzed with para-toluenesulfonic acid. Thus, for example, l/2b give phenyl-hydrazone 65 in 80% yield that, in turn, under the conditions of the Fischer indole synthesis, may give rise to pyrrolo[4,3-b]indolene 66 (90TH1). (See Fig. 31.)... 

EXTENSIONS AND COMMENTARY N-Methyltryptamine (monomethyltryptamine, NMT) is an alkaloid that has been found in the bark, shoots and leaves of several species of Virola, Acacia and Mimosa. However, the major snuffs associated with these plant have been shown to also contain 5-MeO-DMT and are discussed there. NMT has been synthesized in a number of ways. One can react 3-(2-bromoethyl)indole with methylamine. NMT can be isolated as the benzoyl derivative from the methylation of tryptamine with methyl iodide followed by reaction with benzoyl chloride, with the hydrolysis of this amide with alcoholic KOH. It can also be synthesized from indole with oxalyl chloride, with the resulting glyoxyl chloride reacting with methylamine in ether to give indol-3-yl N-methylglyoxalylamide (mp 223-224 °C from IPA) which is obtained in a 68% yield, which is reduced to NMT to give the amine hydrochloride (mp 175-177 °C from ) in a 75% yield. The most simple and direct synthesis is the formamide reduction given above. 

---