Indole Alkaloids - Biosynthesis

Biosynthesis

Biogenetic precursor of all indole alkaloids is the amino acid tryptophan. For most of them, the first synthesis step is decarboxylation of tryptophan to form tryptamine. Dimethyltryptamine (DMT) is formed from tryptamine by methylation with the participation of coenzyme of S-adenosyl methionine (SAM). Psilocin is produced from dimethyltryptamine by oxidation and is then phosphorylated into psilocybin.

In the biosynthesis of serotonin, the intermediate product is not tryptamine but 5-hydroxytryptophan, which is in turn decarboxylated to form 5-hydroxytryptamine (serotonin).

Biosynthesis of β-carboline alkaloids occurs through the formation of Schiff base from tryptamine and aldehyde (or keto acid) and subsequent intramolecular Mannich reaction, where the C(2) carbon atom of indole serves as a nucleophile. Then, the aromaticity is restored via the loss of a proton at the C(2) atom. The resulting tetrahydro-β-carboline skeleton then gradually oxidizes to dihydro-β-carboline and β-carboline. In the formation of simple β-carboline alkaloids, such as harmine and harmaline, pyruvic acid acts as the keto acid. In the synthesis of monoterpenoid indole alkaloids, secologanin plays the role of the aldehyde. Pirroloindole alkaloids are synthesized in living organisms in a similar way.

Biosynthesis of ergot alkaloids begins with the alkylation of tryptophan by dimethylallyl pyrophosphate (DMAPP), where the carbon atom C(4) in the indole nucleus plays the role of the nucleophile. The resulting 4-dimetilallil-L-tryptophan undergoes N-methylation. Further products of biosynthesis are chanoclavine-I and agroclavine – the latter is hydroxylated to elymoclavine, which in turn oxidizes into paspalic acid. In the process of allyl rearrangement, paspalic acid is converted to lysergic acid.

Biosynthesis of monoterpenoid indole alkaloids begins with the Mannich reaction of tryptamine and secologanin; it yields strictosidine which is converted to 4,21-dehydrogeissoschizine. Then, the biosynthesis of most alkaloids containing the unperturbed monoterpenoid part (Corynanthe type) proceeds through cyclization with the formation of cathenamine and subsequent reduction to ajmalicine in the presence of nicotinamide adenine dinucleotide phosphate (NADPH). In the biosynthesis of other alkaloids, 4,21-dehydrogeissoschizine first converts into preaquamycin (an alkaloid of subtype strychnos, type Corynanthe) which gives rise to other alkaloids of subtype strychnos and of the types Iboga and Aspidosperma. Bisindole alkaloids vinblastine and vincristine are produced in the reaction involving catarantine (alkaloid of type Iboga) and vindolin (type Aspidosperma).

Read more about this topic:  Indole Alkaloids