Carbolines reactions

Perhaps the most important application of the Mannich reaction is in the synthesis of 3-dialkylaminoindoles. Intramolecular versions of this reaction are also possible, as illustrated by the formation of the /S-carboline (73). 

Protoporphyrin-IX, N-methyl-, 4, 396 Protoporphyrins, 4, 382 photooxygenation, 4, 402 Prototropic tautomerism polyheteroatom six-membered rings, 3, 1055 Prozapine properties, 7, 545 Pschorr reaction carbolines from, 4, 523 dibenzazepines from, 7, 533 dibenzothiophenes from, 4, 107 phenanthridines from, 2, 433 Pseudilin, pentabromo-synthesis, 1, 449 Pseudoazulene synthesis, 4, 526 Pseudobases in synthesis reviews, 1, 62 Pseudocyanines, 2, 331 Pseudothiohydantoin synthesis, 6, 296 Pseudouracil structure, 3, 68 Pseudoyangonin IR spectra, 3, 596 Pseudoyohimbine synthesis, 2, 271 Psicofuranine biological activity, 5, 603 as pharmaceutical, 1, 153, 160... 

Bisehler-Napieralski reaetions, 4, 279 carboline synthesis from, 4, 516 Mannieh-type reactions, 4, 279 sulfur isosteres, biological activity, 4, 913 synthesis, 4, 337, 913 Tryptophan... 

The Bischler-Napieralski reaction involves the cyclization of phenethyl amides 1 in the presence of dehydrating agents such as P2O5 or POCI3 to afford 3,4-dihydroisoquinoline products 2. This reaction is one of the most commonly employed and versatile methods for the synthesis of the isoquinoline ring system, which is found in a large number of alkaloid natural products. The Bischler-Napieralski reaction is also frequently used for the conversion of N-acyl tryptamine derivatives 3 into p-carbolines 4 (eq 2). 

Bischler-Napieralski reactions of N-acyl tryptamine derivatives 16 are believed to proceed via a related mechanism involving the initial formation of intermediate spiroindolenines (17) that rearrange to the observed 2-carboline products (18). The presence of these intermediates has been inferred by the observation of dimerized products that are presumably formed by the intermolecular trapping of the spiroindolenine by unreacted indole present in the reaction mixture." ... 

This reaction is also a key method for the formation of tetrahydro-P-carbolines 5 from indole bases 4 and aldehydes, ketones, or 1,2-di carbonyl compounds 2. These reactions are similarly acid-catalyzed or thermally-induced and have been utilized in the synthesis of numerous indole alkaloids. 

Several factors influence the diastereoselectivity of the Pictet-Spengler condensation to form 1,3-disubstituted and 1,2,3-trisubstituted tetrahydro-P-carbolines (39 and 40, respectively). The presence or absence of an alkyl substituent on the nitrogen of tryptophan has a large influence on the relative stereochemistry of the tetrahydro-P-carboline products formed from a condensation reaction with an aldehyde under various reaction conditions. 

For the kinetically controlled formation of 1,3-disubstituted tetrahydro-P-carbolines, placing both substituents in equatorial positions to reduce 1,3-diaxial interactions resulted in the cw-selectivity usually observed in these reactions." Condensation reactions carried out at or below room temperature in the presence of an acid catalyst gave the kinetic product distribution with the cw-diastereomer being the major product observed, as illustrated by the condensation of L-tryptophan methyl ester 41 with benzaldehyde. At higher reaction temperatures, the condensation reaction was reversible and a thermodynamic product distribution was observed. Cis and trans diastereomers were often obtained in nearly equal amounts suggesting that they have similar energies."... 

A -sulfinyl chiral auxiliaries have been used to prepare enantiopure tetrahydro-P-carbolines and tetrahydroisoquinolines in good yields under mild reaction conditions. Both enantiomers of V-p-toluenesulfinyltryptamine 46 could be readily prepared from the commercially available Andersen reagents.Compound 46 reacted with various aliphatic aldehydes in the presence of camphorsulfonic acid at -78 °C to give the A-sulfinyl tetrahydro-P-carbolines 47 in good yields. The major diastereomers were obtained after a single crystallization. Removal of the sulfinyl auxiliaries under mildly acidic conditions produced the tetrahydro-P-carbolines 48 as single enantiomers. 

The intense blue color which is obtained when tryptophan, in the presence of an aldehyde, is treated with concentrated sulfuric acid containing an oxidizing agent (Adamkiewicz-Hopkins-Cole reaction) was beheved to involve formation of a tetrahydro-j8-carboline intermediate, since most l,2,3,4-tetrahydro-j8-carbohne derivatives yield a similar color with concentrated sulfuric acid containing an oxidizing agent. The two colors have now been shown to have different absorption spectra. The nature of the carboline-blue color is still obscure. 

Tetrahydro-y-carbolines may be prepared by an internal Mannich-type reaction between 2-j8-aminoethyhndoles and formaldehyde. Kebrle et al. prepared 27 by the reaction of 2-lithio-l-methyl-indole with A-benzyl-A-ethylaminoacetone followed by debenzyl-ation treatment of 27 with formaldehyde led to the formation of the tetrahydro-y-carboline 28. Similarly, when the quaternary salts (30) of the Mannich bases (29) are heated at 100°, 1,2,3,4-tetrahydro-y-carbohnium salts (31) are formed. 

Tetrahydrocarboline derivatives have recently been synthesized from 2-o-nitroarylated cyclohexanone derivatives. Thus, reductive cyclization of 3-(2,4-dinitrophenyl)-l-methyl-4-piperidone (68) (prepared by the reaction of 2,4-dinitrochlorobenzene with l-methyl-4-A-pyrrolidmo-3-piperideine) gave 7-amino-2-methyl-l,2,3,4-tetrahydro-y-carboline (69). Neither catalytic nor chemical reduction of the... 

A large number of compounds containing an extended 3,4-dihydro-/5-carbolinium system (82) have been converted similarly into the corresponding tetrahydro-j8-carboline derivatives (83a and 83b). In many cases the reaction is stereospecific and one or the other of the epimers 83a and 83b has been isolated as the sole or major product. Sodium and ethanoH tin and hydrochloric acid zinc and... 

Similar oxidative reactions have been studied more thoroughly in the pentacyclic series of tetrahydro-j8-carbolines, and general methods are available. 

Dehydration of a spirocyclic quaternary salt such as 147 gives rise to a 3,4-dihydro-y-carboline (148). This reaction is not, however, of general applicability since both 149 (R = C2H5) and 149 (R = CH2C6H5) yield the fully aromatic carbolinium salt 150 under the same conditions. 

The extension of the method to the synthesis of y-carboline from 1-y-pyridylbenztriazole (199) and of a 3,4-benz-y-carboline from a l-(4-quinolyl)benztriazole proceeded smoothly. In an alternative approach excellent yields of y-carboline were obtained by heating l-phenylpyrido[3,4-d] -triazole (200) at 320-350°. The synthesis of halogeno-substituted j8- and y-carbolines via the Graebe-Ullmann reaction has been reported. ... 

Decomposition of the diazonium salt of 2-amino-iV-methyl-iV-3 -pyridylaniline (205) in aqueous acid solution with copper powder at room temperature gave overall yields of cyclized products consisting of a mixture of i id-iV-methyl-3-carboline (206) (47.5%) and ind-N-methyl-jS-carboUne (207) (25.5%), in agreement with the proposed homolytic character of the reaction under these conditions. This constituted the first unambiguous synthesis of a simple 3-carboline derivative. 

Preliminary experiments indicate that a-carboline is the major isomer formed in the reaction. The preparation of a mixture of a-(81.5%) and y-carboline (18.5%) from 3-o-nitrosophenylpyridine... 

A synthetic approach to the same tetracyclic y-carboline nucleus (235) is the consecutive Fischer indole and Bischler-Napieralski ring closure of o-acetamidoacetophenone methylphenyUiydrazone (234). The Bischler-Napieralski reaction has also been used in the synthesis of 3,4-benz-j8-carbolines (236) and 3,4-benz-3-carbolines, e.g. 237... 

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