Vincristine roseus

Until separation techniques such as chromatography (28,29) and counter-current extraction had advanced sufficientiy to be of widespread use, the principal alkaloids were isolated from plant extracts and the minor constituents were either discarded or remained uninvestigated. With the advent of, first, column, then preparative thin layer, and now high pressure Hquid chromatography, even very low concentrations of materials of physiological significance can be obtained in commercial quantities. The alkaloid leurocristine (vincristine, 22, R = CHO), one of the more than 90 alkaloids found in Catharanthus roseus G. Don, from which it is isolated and then used in chemotherapy, occurs in concentrations of about 2 mg/100 kg of plant material. 

Vinca alkaloids are derived from the Madagascar periwinkle plant, Catharanthus roseus. The main alkaloids are vincristine, vinblastine and vindesine. Vinca alkaloids are cell-cycle-specific agents and block cells in mitosis. This cellular activity is due to their ability to bind specifically to tubulin and to block the ability of the protein to polymerize into microtubules. This prevents spindle formation in mitosing cells and causes arrest at metaphase. Vinca alkaloids also inhibit other cellular activities that involve microtubules, such as leukocyte phagocytosis and chemotaxis as well as axonal transport in neurons. Side effects of the vinca alkaloids such as their neurotoxicity may be due to disruption of these functions. 

The two alkaloids vinblastine and vincristine found in Catharanthus roseus have been recent targets of total synthesis because of their potency in cancer chemotherapy. The reduced tree diagram for the Fukuyama plan to vincristine is shown in Figure 4.66. There are three points of convergence, four branches leading to the target product and four tiers of reaction yields. 

The almost simultaneous discovery of vinblastine (1) by Noble et al. (57) and by Svoboda and co-workers (58) is one of the the most publicized events in alkaloid chemistry. Since its initial discovery, vinblastine (1) has been reisolated from C. roseus several times (47 9,57-60,) and it has also obtained from C. ovalis (32), C. longifolius (33), and C. trichophyllus (60). The large-scale separation of vinblastine (1) and vincristine (2) from C. roseus received attention from pharmaceutical industries, and several procedures for the separation of these alkaloids have been reported in the patent literature (61-71). 

Vincristine (leurocristine) (2) is present in C. roseus in approximately 0.0003% yield, the lowest level of any medicinally useful alkaloid produced on commercial basis. Since the initial isolation of 2 45), its structure elucidation has been reviewed 1,3). The final confirmation of structure 2 and the determination of the absolute configurations of the stereo centers of vincristine (2) were achieved by X-ray crystallography of its methiodide derivative 79,80). 

This overall biosynthetic scheme is summarized in Scheme 7, and it is well to remember that C. roseus is almost alone as a plant in which this whole pathway can be viewed in its entirety, for most indole alkaloid-containing plants produce only one or two of the major alkaloid classes, and not all four. In addition, C. roseus is without doubt the most economically important of the indole alkaloid-containing plants, and thus studies were, and continue to be, driven by the goal of increasing the availability of the commercially significant alkaloids ajmalicine (39), vinblastine (1), and vincristine (2). 

Goodbody and co-workers (7/9) have examined the production of alkaloids in root and shoot cultures induced from seedlings of C. roseus. The pattern of alkaloids in the root cultures was similar to that of the roots from intact plants. Thus ajmalicine (39) and catharanthine (4) were produced, but no vindoline (3), a major leaf alkaloid, and no bisindole alkaloids. Similarly, the pattern of the alkaloid content of the shoot cultures was like that of the leaves of the intact plant, showing the presence of vindoline (3), catharanthine (4), and ajmalicine (39), with 3 predominating. A search for the bisindole alkaloids in the cultures indicated the presence of anhydrovinblastine (8) and leurosine (11) in the shoot cultures (2.6 and 0.3 xg/g fresh weight, respectively), but no vinblastine (1) or vincristine (2). 

The enzyme-catalyzed formation of anhydrovinblastine (8) from catharanthine (4) and vindoline (3) was first examined by Kutney and co-workers (170,219) using a cell-free preparation. [ao f- H]Catharanthine (4) and [acety/- C]vindoline (3) were incubated for 3-8 hr, both separately and jointly with a preparation from C. roseus, which led to the isolation of labeled anhydrovinblastine (8) and leurosine (11) incorporations were of the order of 0.54 and 0.36%, respectively. On this basis, anhydrovinblastine (8) was proposed as the key biosynthetic intermediate en route to vinblastine (1) and vincristine (2). 

Catharanthus (yincd) alkaloids [Vinblastine (4), Vincristine (5)] Catharanthus roseus (L.) G. Don (Madagascar periwinkle) Anticancer... 

Vinblastine (4) and vincristine (5) are closely related indole-dihydroindole dimers (bisindole alkaloids), isolated from Catharanthus roseus (L.) G. Don (formerly known as Vinca rosea L.), the Madagascar periwinkle. Both of these anticancer agents, known as vinca alkaloids in the medical literature, are specific binders of tubulin, leading to tubulin depolymerization and cell cycle arrest in the metaphase stage. 

Podophyllotoxin (38) Podophyllum peltatum L.), colchicine (9) Colchicum autumnale L.), vinblastine (4), and vincristine (5) Catharan-thus roseus (L.) G. Don] are standard microtubule-destabilizing agents used in cancer research. Paclitaxel (21), from Taxus brevifolia Nutt., acts as a promoter of stabilization of microtubules and causes mitotic arrest in an unusual fashion. ... 

Yang X et al.. Preliminary study of a vincristine-producing endophytic fungus isolated from leaves of Catharanthus roseus, Zhongcaoyao 35 79—81, 2004. 

Other examples of natural drugs may be pointed out streptozotocin (from streptomyces achromogenes), bleomycin (from streptomyces verticillus), adriamy-cin and daunomycin (from streptomyces pencetius), mitomycin C (from streptomyces caesipitosus), vincristine, vinblastine and vindoline (from catharanthus roseus or vinca rosea L.). 

Catharanthus roseus Ajmalicine Catharan thine Vindoline Vinblastine Vincristine Vindesine Alioline... 

Vincamine, vinblastine and vincristine are very important clinic alkaloids. They are produced naturally by plants vincamine by Vinca minor, and vinblascine and vincristine by Madagascar periwinkle Catharanthus roseus). The vindoline synthesis pathway starts with strictosidine and, via dehydrogeissoschizine, preakuammicine, stemmadenine and tabersonine, is converted to vindoline and vincristine (Figure 42). Conversion from vindoline to vinblastine is based on the NADH enzyme activity. Vinblastine and vincristine are very similar alkaloids. The difference is that vincristine has CHO connected to N, whereas vinblastine in the same situation has only CO3. This synthetic structural differences influence their activity. Vinblastine is used to treat Hodgkin s disease (a form of lymphoid cancer), while vincristine is used clinically in the treatment of children s leukaemia. Vincristine is more neurotoxic than vinblastine. 

Catharanthus roseus (L.) G. Don China Vinblastine, vincristine, carosine, vinrosidine, lenrosine, lenrosivine, rovidine, perivine, perividine, vindolinine, pericalline.33 This herb is toxic. Anticancer in chronic lymphocytic leukemia and Hodgkin s disease, in acute lymphocytic leukemia. 

Vindolicine (vindoline 10,10 -dimer) and fourteen bisindole alkaloids of the vinblastine group have been isolated from the aerial parts of Catharanthus ovalis.ny These include leurosine, 21 -hydroxyleurosine, vinblastine, 20 -deoxy-leurosidine, 20 -deoxyvinblastine, pleurosine, Catharine, catharinine, vincristine, and vincathicine. A new alkaloid is 21 -oxoleurosine (198), which has also been found recently in Catharanthus roseus.U8 The three remaining alkaloids are vincovaline (199) and vincovalinine (16 -desmethoxycarbonyl-leurosine), whose structures119 have now been confirmed, and vincovalicine, which has... 

Within the natural products field, the investigation of complete biosynthetic pathways at the enzyme level has been especially successful for plant alkaloids of the monoterpenoid indole alkaloid family generated from the monoterpene gluco-side secologanin and decarboxylation product of tryptophan, tryptamine [3-5]. The most comprehensive enzymatic data are now available for the alkaloids ajmalicine (raubasine) from Catharanthus roseus, and for ajmaline from Indian Rauvolfia serpentina [6] the latter alkaloid with a six-membered ring system bearing nine chiral carbon atoms. Entymatic data exsist also for vindoline, the vincaleucoblastin (VLB) precursor for which some studies on enzymatic coupling of vindoline and catharanthine exist in order to get the so-called dimeric Catharanthus indole-alkaloids VLB or vincristine [7-9] with pronounced anti-cancer activity [10, 11]. 

Another group of alkaloids with antimitotic properties are the bisindole alkaloids, such as vinblastine and vincristine, which have been isolated from Catharanthus roseus (Apocynaceae). These alkaloids also bind to tubulin (312). Both alkaloids are very toxic, but are nevertheless important drugs for the treatment of some leukemias. 

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