Terpenoid indole alkaloids tryptamine, pathway

In the present review we divide the pathway leading to the Catharanthus alkaloids into five parts (Fig. 2). The first two concern the biosynthesis of tryptophan and geraniol diphosphate they are similar to (or even part of) primary metabolism and occur in all plant species. Whether these pathways in C. roseus are differently regulated, or whether even an additional pathway exists parallel to the normal primary metabolism, is a question not yet answered. The third and the fourth part coneern the steps from tryptophan to tryptamine and from geraniol to secologanin, respectively. Both pathways occur also in other plants, including plants that do not produce terpenoid indole alkaloids. The fifth part is the condensation of secologanin and tryptamine to strictosidine and the subsequent conversion into a plethora... 

Terpenoid indole alkaloid biosynthesis actually starts with the coupling of tryptamine and secologanin (Fig. 12). In the next step, a glucosidase splits off the sugar moiety and the reactive dialdehyde formed is further converted through different pathways to a cascade of products, including ajmalicine, catharanthine, tabersonine, and vindoline. 

Elucidation of the biosynthetic pathway leading from tryptamine and secologanin, the basic precursors of terpenoid indole alkaloids, to ajmalicine, 19-epiajmalicine, and tetrahydroalstonine was reviewed by Zenk (593) and Verpoorte (594). As both ajmalicine and serpentine are produced in cell cultures, most research has involved improving yields to commercially interesting levels. We here discuss various approaches to meet this goal. 

Terpenoid indole alkaloid biosynthetic enzymes are associated with at least three different cell types in C. roseus TDC and STR are localized to the epidermis of aerial organs and the apical meristem of roots, D4H and DAT are restricted to the laticifers and idio-blasts of leaves and stems, and GlOH is found in internal parenchyma of aerial organs (St-Pierre et al. 1999 Buriat et al. 2004) thus, vindoline pathway intermediates must be translocated between cell types. Moreover, enzymes involved in terpenoid indole alkaloid biosynthesis in C. roseus are also localized to at least five subcellular compartments TDC, D4H and DAT are in the cytosol, STR and the peroxidase that couples catharanthine to vinblastine are localized to the vacuole indicating transport of tryptamine across the tono-plast, SGD is a soluble enzyme associated with the cytoplasmic face of the endoplasmic reticulum, the P450-dependent monooxygenases are integral endomembrane proteins, and the N-methyltransferase involved in vindoline biosynthesis is localized to thylakoid membranes (De Luca and St-Pierre 2000). 

---