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Vinblastine from Catharanthus roseus

R = CHO) and vincaleukoblastine (vinblastine (22), R = CH3), along with nearly one hundred other compounds, from Catharanthus roseus (V.) G. Don,... [Pg.551]

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. [Pg.1283]

Salutaridinol 7-0-acetyltransferase catalyzes the conversion of the phenanthrene alkaloid salutaridinol to salutaridinol-7-Oacetate, the immediate precursor of thebaine along the morphine biosynthetic pathway in P. somniferum (Fig. 10.7).26 Acetyl CoA-dependent acetyltransferases have an important role in plant alkaloid metabolism. They are involved in the synthesis of monoterpenoid indole alkaloids in medicinal plant species such as Rauwolfia serpentina. In this plant, the enzyme vinorine synthase transfers an acetyl group from acetyl CoA to 16-epi-vellosimine to form vinorine. This acetyl transfer is accompanied by a concomitant skeletal rearrangement from the sarpagan- to the ajmalan-type (reviewed in2). An acetyl CoA-dependent acetyltransferase also participates in vindoline biosynthesis in Catharanthus roseus, the source of the chemotherapeutic dimeric indole alkaloid vinblastine (reviewed in2). Acetyl CoA deacetylvindoline 4-O-acetyltransferase catalyzes the last step in vindoline biosynthesis. A cDNA encoding acetyl CoA deacetylvindoline 4-0-acetyltransferase was recently successfully isolated.27... [Pg.173]

Another cultured cell line of Catharanthus roseus (EU4A), which does not produce detectable amounts of vinblastine and other bisindole alkaloids, was also examined for its ability to transform 78 (183). Cell-free extracts of the culture line were prepared, and the 35,000 X g supernatant solution was used. Incubations with 2r-tritioanhydiovinblastine yielded a mixture from which radioactive vinblastine (52) was isolated. The labeled vinblastine was reisolated after unlabeled carrier was added and rigorously purified by successive thin-layer chromatography, reversed-phase HPLC, and crystallization to constant specific activity. Boiled extracts could not produce labeled 52, thus supporting the involvement of enzymes in the conversion process. [Pg.377]

The chemical reactivity of N-6 (or N ), directed entirely by the basicity of this atom, is controlled by the nature and stereochemistry of the substituents at C-4 (vide supra). Oxidation of N-6 occurs under mild conditions in several naturally occurring bisindole alkaloids. Thus, treatment of a dichloromethane solution of leurosine (4) with m-chloroperben-zoic acid at -20°C for 4 hr gives the N -oxide (15) in greater than 90% yield after preparative reversed-phase chromatography (46). Leurosine A/ -oxide has also been isolated from Catharanthus roseus and should therefore be considered a naturally occurring bisindole (50). The analogous conversion of vinblastine (1) to its A/ -oxide (16) proceeds under similar conditions but requires longer exposure to the peraeid (24 hr) (5/) 3, 4 -anhydrovinblastine is converted to its N -oxide (17) in 10 min at 0°C... [Pg.158]

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. [Pg.21]

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.). [Pg.5]

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. [Pg.81]

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... [Pg.192]

A number of alkaloids with the aspidospermine skeleton occur in the genus Vinca and are dealt with in detail in Chapter 12. They include the very important base vindoline (CIII) which not only occurs as the free base in Vinca rosea (= Lochnera rosea = Catharanthus roseus) but also as part of the dimeric alkaloids vinblastine (vincaleucoblastine) and leurosine, whereas the Aa-formyl analog, CIV, forms part of the dimeric alkaloid leurocristine (5, 72a). These dimeric alkaloids have been used successfully for the treatment of certain forms of cancer in man (5). Vindolinine (CVI) has also been isolated from V. rosea and its dihydro-decarbomethoxy derivative, tuboxenin (CVI-A), which is the parent member of the series, occurs in a Pleiocarpa species (53). ( + )-Vincadif-formine (XCIII, 6, 74) has already been mentioned as the racemic form of (— )-6,7-dihydrotabersonine (Section II, O). It has been found in V. difformis and in Rhazya stricta (51b) where the (+) form also occurs. [Pg.419]

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. [Pg.57]

The antitumor alkaloids vinblastine (1) and vincristine (2) were the first natural products to be used on a large scale as anticancer agents, and they thus blazed the trail for others that came afterward. Vinblastine (as vincaleukoblastine) was isolated from Catharanthus roseus (L.) G. Don, which was formerly known... [Pg.1143]

The Vinca alkaloids, vinblastine (64) and vincristine (65), isolated from Catharanthus roseus, have contributed significantly to the understanding and treatment of cancer (56, 57). These... [Pg.1468]

If the C-15, C-16 bond is oxidatively cleaved, the secodine skeleton results (the proposed progenitor of the Aspidosperma and the iboga systems) through alternative Diels-Alder type cyclizations to afford tabersonine and catharanthine. The bisindole alkaloids of Catharanthus roseus reflect the union of vindoline and catharanthine to afford anhydrovinblastine modification affords the clinically significant alkaloids, vinblastine (VLB) and vincristine (VCR Fig. 39). The alkaloids, particularly VCR, are important as anticancer agents and have led to the development of the semisynthetic derivatives vindesine and vinorelbine (Fig. 40). Synthetic approaches are available to join the monomeric precursors. The enzymatically controlled sequence of reactions from tabersonine to vindoline has been elucidated. [Pg.253]

This reaction has been extensively studied in the case of the chlopromazine radical (R -mediated aminopyrine (S) oxidation [41], a typical reaction for xenobiotics, as well as in the case of the vindoline radical (R -mediated catharanthine (S) oxidation [42], a key reaction in the biosynthesis of the anticancer drugs, vinblastine and vincristine, which are obtained from Catharanthus roseus. [Pg.744]

NSC 49842 Velban Velbe ) is one of the vinca alkaloids from Vinca rosea (Catharanthus roseus) (Apocynaceae). It is a cytotoxic ANTICANCER AGENT used by injection for acute leukaemias, lymphomas and some solid tumours, vinblastine sulfate vinblastine, vincaleucoblastine vinblastine, vincaleukoblastine vinblastine. [Pg.290]

Vinblastine sulfate is the nonproprietary name assigned by the United States Adopted Names Council to the compound originally named vinca-leukoblastine sulfate1 s 3. It is the 1 1 sulfate salt of an alkaloid obtained from the plant Vinca rosea Linn. (Catharanthus roseus G. Don) of the family Apocynaceae, better known as Madagascar periwinkle. Frequently the name is abbreviated to VLB sulfate. It is also identified by the code numbers NSC-49812 and 29060-LE4. The elucidation of the molecular structure, stereochemistry, and absolute configuration of this interesting compound is fully documented in the literature5 7 8. [Pg.445]

In 1959 a series of bisindole alkaloids were isolated from Vinca rosea L. Catharanthus roseus G. Don). Of signal importance have been vinblastine (169) (= vincaleukoblastine) and vincristine (170) (= leurocristine), both of which show anti-tumour activity (see Section 18, p. 333). Structurally clarified also are leurosidine (= vinrosidine), leurosine, pleurosine, and isoleurosine , while only one half of Catharine is known. [Pg.250]

Catharine, first isolated in 1961 from Catharanthus roseus, was subsequently stated, correctly, to possess an intact vindoline component.The second component has only recently been elucidated it contains an unusual enamide function, presumably derived from the oxidative fission of the piperidine ring in a velbanamine derivative. Catharine is thus closely related to vinblastine, and its complete structure, elucidated by the X-ray method, is (224). [Pg.247]

So far about 72 alkaloids have been isolated from Vinca rosea Liim, genus Catharanthus roseus (Family Apocynaceae). Out of these 24 dimeric alkaloids only six possess antineoplastic activity but specifically two i.e., vincristine, vinblastine, are used clinically in human neoplasms. These are cell-cycle specific agents. [Pg.821]


See other pages where Vinblastine from Catharanthus roseus is mentioned: [Pg.733]    [Pg.29]    [Pg.205]    [Pg.36]    [Pg.16]    [Pg.25]    [Pg.246]    [Pg.160]    [Pg.16]    [Pg.202]    [Pg.3]    [Pg.29]    [Pg.333]    [Pg.46]    [Pg.22]    [Pg.3632]    [Pg.780]    [Pg.291]    [Pg.120]    [Pg.26]    [Pg.177]    [Pg.6]    [Pg.144]    [Pg.780]   
See also in sourсe #XX -- [ Pg.5 , Pg.8 , Pg.14 , Pg.283 , Pg.805 ]

See also in sourсe #XX -- [ Pg.8 , Pg.14 , Pg.283 , Pg.805 ]




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Catharanthus roseus

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