长春花愈伤组织的诱导及限速酶活性的研究

长春花生物碱是目前应用最有效的天然植物抗肿瘤药物,目前利用生物工程生产长春花生物碱成果甚微。通过对长春花愈伤组织的诱导条件进行研究,同时对植株各部位的色氨酸脱羧酶(TDC)、过氧化物酶(POD)进行精确测定。认为长春花愈伤组织的诱导以MS培养基、激素2,4-D 2 mg/L和6-BA 0.5 mg/L最好,生物碱的合成是植物体多器官共同参与的结果。     

Effects of light and plant growth regulators on the biosynthesis of vindoline and other indole alkaloids in Catharanthus roseus callus cultures

A callus strain with stable ability for vindoline synthesis was selected from many prepared Catharanthus roseus leaf calli to study the regulation of vindoline biosynthesis as well as other indole alkaloids. It was shown that light and plant growth regulators significantly influenced the biosynthesis of vindoline and other alkaloids as well as acidic and basic peroxidase activities. Light promoted vindoline and serpentine biosynthesis, and stimulated plastid development and peroxidase activity. However, 2,4-D suppressed the biosynthesis of all indole alkaloids and peroxidase activity. Our results suggest that light or plant hormones regulate vindoline, serpentine and other alkaloid biosynthesis and accumulation by influencing peroxidase activity and the differentiation status of callus cultures, especially chloroplast development. Some possible relationships between serpentine or vindoline biosynthesis and peroxidase activity are proposed.     

Opium poppy and Madagascar periwinkle: model non-model systems to investigate alkaloid biosynthesis in plants

Alkaloids represent a large and diverse group of compounds that are related by the occurrence of a nitrogen atom within a heterocyclic backbone. Unlike other types of secondary metabolites, the various structural categories of alkaloids are unrelated in terms of biosynthesis and evolution. Although the biology of each group is unique, common patterns have become apparent. Opium poppy ( Papaver somniferum ), which produces several benzylisoquinoline alkaloids, and Madagascar periwinkle ( Catharanthus roseus ), which accumulates an array of monoterpenoid indole alkaloids, have emerged as the premier organisms used to study plant alkaloid metabolism. The status of these species as model systems results from decades of research on the chemistry, enzymology and molecular biology responsible for the biosynthesis of valuable pharmaceutical alkaloids. Opium poppy remains the only commercial source for morphine, codeine and semi-synthetic analgesics, such as oxycodone, derived from thebaine. Catharanthus roseus is the only source for the anti-cancer drugs vinblastine and vincristine. Impressive collections of cDNAs encoding biosynthetic enzymes and regulatory proteins involved in the formation of benzylisoquinoline and monoterpenoid indole alkaloids are now available, and the rate of gene discovery has accelerated with the application of genomics. Such tools have allowed the establishment of models that describe the complex cell biology of alkaloid metabolism in these important medicinal plants. A suite of biotechnological resources, including genetic transformation protocols, has allowed the application of metabolic engineering to modify the alkaloid content of these and related species. An overview of recent progress on benzylisoquinoline and monoterpenoid indole alkaloid biosynthesis in opium poppy and C. roseus is presented.     

Two-phase culture for enhanced alkaloid synthesis and release in a new airlift reactor by Catharanthus roseus

A new airlift reactor was used to culture Catharanthus roseus cells, in which the draft tube was made up of polyurethane foam and acted as the immobilizing matrix. The reactor was connected in series to an adsorbent column with a neutral polymeric resin which absorbs these alkaloids. The synthesis of alkaloid was stimulated by adding the resin column and the total content of alkaloid secreted by cells reached 380 mg/L, which was 4.5 times of that in the control experiment. Meanwhile, most of the intracellular alkaloid produced by Catharanthus roseus was secreted into the medium.     

Influence of auxins on alkaloid accumulation by a transgenic cell line of Catharanthus roseus

The transgenic cell line of Catharanthus roseus (L.) G. Don S10 was used to study the effect of the presence of the synthetic auxins naphthalene acetic acid and 2,4-dichlorophenoxyeacetic acid in the culture medium on the accumulation of terpenoid indole alkaloids. Line S10 carries a recombinant, constitutively over-expressed version of the endogenous strictosidine synthase gene. The experiments were carried out using a two-stage culture system, consisting of a growth phase of 7 to 10 days and a production phase of 14 or 30 days. The hormonal composition was a crucial factor when formulating both the growth and the production media. It was determined that the presence of naphthalene acetic acid during the production phase led to lower levels of alkaloid accumulation. The presence of 2,4-dichlorophenoxyacetic acid in the growth medium reduced culture aggregation and repressed secondary metabolism. Cultures grown in medium containing 2,4-dichlorophenoxyacetic acid showed reduced capacity to supply biosynthetic precursors, which resulted in low levels of accumulation of terpenoid indole alkaloids. Cultures grown in 2,4-D-containing medium showed reduced capacity to supply biosynthetic precursors and higher rates of catabolic activity, which resulted in low levels of TIA accumulation. The expression of the gus and strictosidine synthase transgenes, measured at the enzyme level, was similarly high under all conditions tested. This revised version was published online in June 2006 with corrections to the Cover Date.     

Saprophytic production of Clavine alkaloids and activity of Hydroxymethylglutaryl-CoA reductase

In submerged Claviceps cultures the activity of hydroxymethylglutaryl-CoA reductase preceded the increase of alkaloid production and of sterol content. During the first alkaloid phase, cell mevalonate was involved in the biosynthesis of both alkaloids and steroids. In the second production phase, it was predominantly used for alkaloid synthesis. Hydroxymethylglutaryl-CoA reductase appears to be a suitable target for physiological manipulation to increase clavine alkaloid yields.     

Alkaloid formation by habituated and tumorous cell suspension cultures of Catharanthus roseus

Habituated and tumorous Catharanthus roseus cells grown in the absence of hormones accumulated indole alkaloids. Total alkaloids and alkaloid pattern were the same when cells were cultured in medium without hormones or in alkaloid production medium with and without indole acetic acid. Treatment of cells with Pythium homogenate as elicitor did not increase total alkaloids or change the pattern of alkaloids produced. When either habituated or tumorous cells were grown in 1B5 medium after Gamborg et al (1968) containing 2,4-dichlorophenoxyacetic acid (2,4-D), their capacity to accumulate alkaloids decreased with time. The levels of tryptophan decarboxylase (TDC) and strictosidine synthase (SS) specific activities were constant throughout growth except when cells were exposed to 2,4-D in 1B5 medium, where enzyme activities declined in step with the decrease in alkaloid accumulation. Neither habituated nor tumorous cell suspension cultures accumulated vindoline, nor could they be induced to produce this alkaloid by any of the given treatments.NRCC No. 27514     

Effects of long-term preservation on growth and productivity of Panax ginseng and Catharanthus roseus cell cultures

Cell cultures of Panax ginseng and Catharanthus roseus producing secondary metabolites were preserved in liquid nitrogen or under mineral oil for six months. The growth behaviour and the ability of the cultures to produce ginsenosides or indole alkaloids were measured after a recovery period and compared with cultures maintained by frequent subcultivation during the same period. Neither growth kinetics nor the degree of vacuolization during growth were affected by the long term preservation. Some changes in secondary metabolism were however found, indicating that preservation under mineral oil does not preserve the productivity of cell cultures whereas the cryogenic method does.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - DMSO dimethylsulphoxide - HPLC high performance liquid chromatography     

Screening method for cDNAs encoding putative enzymes converting loganin into secologanin by a transgenic yeast culture

A screening method was developed for the detection of enzymes converting loganin to secologanin, a precursor in the biosynthesis of indole alkaloids. The method uses a transgenic yeast culture expressing two cDNAs encoding enzymes involved in the terpenoid indole alkaloid biosynthesis. In the presence of secologanin, the yeast culture produces a yellow compound visible on nitrocellulose. This color change was used to screen a cDNA library of Catharanthus roseus for a putative enzyme converting loganin into secologanin.     

Selection of fungal elicitors to increase indole alkaloid accumulation in catharanthus roseus suspension cell culture

Various fungal elicitors derived from 12 fungi were tested to improve indole alkaloid production in Catharanthus roseus cell suspension cultures. Results show that different fungal mycelium homogenates stimulate different kinds of indole alkaloid (ajmalicine, serpentine and catharanthine) accumulation, which ranged from 2- to 5-fold higher than the control. Some fungal culture filtrates also efficiently elicited the biosynthesis of different indole alkaloids. The optimal elicitor addition and exposure time for the maximal alkaloid production were on day 7 after subculture and for 3 days of treatment but different fungal elicitors showed the different optimal treatment dosages. Additions of elicitor at the doses ranging from 5 mg/l to 30 mg/l of carbon hydrate equivalent resulted in varieous amounts and kinds of indole alkaloid accumulation. Exposed to a same fungal elicitor, several different cell lines generated the different responses regarding as growth rate, culture color and alkaloid production.     

Role of the non-mevalonate pathway in indole alkaloid production by Catharanthus roseus hairy roots

The 1-deoxy-D-xylulose-5-phosphate (DXP) pathway (non-mevalonate pathway) leading to terpenoids via isopentenyl diphosphate (IPP) has been shown to occur in most bacteria and in all higher plants. Treatment with the antibiotic fosmidomycin, a specific inhibitor of DXP reductoisomerase, considerably inhibited the accumulation of the alkaloids ajmalicine, tabersonine, and lochnericine by Catharanthus roseus hairy root cultures in the exponential growth phase. However, fosmidomycin did not significantly affect alkaloid levels in stationary phase hairy root cultures. Feeding with 1-deoxy-D-xylulose, 10-hydroxygeraniol, or loganin resulted in significant increases in alkaloid production by exponential phase hairy root cultures. These results suggest that the DXP pathway is a major provider of carbon for the monoterpenoid pathway leading to the formation of indole alkaloids in C. roseus hairy roots in the exponential phase.     

Geraniol 10-hydroxylase, a cytochrome P450 enzyme involved in terpenoid indole alkaloid biosynthesis.

Geraniol 10-hydroxylase (G10H) is a cytochrome P450 monooxygenase involved in the biosynthesis of iridoid monoterpenoids and several classes of monoterpenoid alkaloids found in a diverse range of plant species. Catharanthus roseus (Madagascar periwinkle) contains monoterpenoid indole alkaloids, several of which are pharmaceutically important. Vinblastine and vincristine, for example, find widespread use as anti-cancer drugs. G10H is thought to play a key regulatory role in terpenoid indole alkaloid biosynthesis. We purified G10H from C. roseus cells. Using degenerate PCR primers based on amino acid sequence information we cloned the corresponding cDNA. The encoded CYP76B6 protein has G10H activity when expressed in C. roseus and yeast cells. The stress hormone methyljasmonate strongly induced G10h gene expression coordinately with other terpenoid indole alkaloid biosynthesis genes in a C. roseus cell culture.     

Alkaloid accumulation in Ca-alginate entrapped cells of Catharanthus roseus: Using a limiting growth medium

The limitation of growth of Catharanthus roseus cells was investigated with a view to their entrapment in a Ca-alginate matrix. An examination of the effects of lowered 2,4-D and phosphate concentrations on cell viability and indole alkaloid biosynthesis enabled a growth limiting and product formation stimulating medium to be designed. Entrapped cells showed a retention of both respiratory activity and biosynthetic capacity over an extended period of time compared with free cells. Evidence is presented which suggests that immobilization in Ca-alginate beads acts to stabilize cells, resulting in enhanced product accumulation.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - d.w. dry weight     

F-244 specifically inhibits 3-hydroxy-3-methylglutaryl coenzyme A synthase

A beta-lactone isolated from Scopulariopsis sp. shows a potent inhibition of cholesterogenesis. The structure of this beta-lactone, termed F-244, is 3,5,7-trimethyl-12-hydroxy-13-hydroxymethyl-2,4-tetradecadiendioic acid 12,14-lactone. The inhibition site of F-244 in cholesterol synthesis was studied. The growth of Vero cells was inhibited at 6.25-12.5 micrograms/ml of F-244. The inhibition of growth was overcome by the addition of mevalonate to the culture medium, but not by the addition of acetate. In a rat liver enzyme system, the incorporations of [14C]acetate and [14C]acetyl-CoA into digitonin-precipitable sterol were 50% inhibited by 0.58 microgram/ml of F-244. The incorporation of [14C]mevalonate was not affected. Studies on the effects of F-244 on the three enzymes involved in mevalonate biosynthesis demonstrated that the drug specifically inhibits HMG-CoA synthase with IC50 value of 0.065 microgram/ml. The effect of analogs of F-244 on HMG-CoA synthase was also investigated.     

Two major regulatory steps in cholesterol synthesis by human renal cancer cells.

Two major mechanisms regulating cholesterol biosynthesis exist in a human renal cancer cell line, Caki-1. Caki-1 is a newly established cell line whose characteristics of rapid growth and active cholesterol synthesis qualify it as a potentially valuable tool for elucidation of regulatory mechanism of cholesterol synthesis and transport. In the absence of exogenous cholesterol, cholesterol is the dominant sterol arising from labeled acetate and mevalonate. As expected, in the presence of exogenous cholesterol, the conversion of acetate to cholesterol and the activity of 3-hydroxy-3-methylglutaryl coenzyme A reductase (EC 1.1.1.34) is markedly reduced and this inhibition is released when cholesterol is removed from the medium. An unexpected and possibly unique finding is the inhibition of the conversion of mevalonate to cholesterol in the presence of exogenous cholesterol. This second major control process results in the accumulation of squalene and may involve additional late steps in cholesterol biosynthesis or metabolism. The occurrence of two major mechanisms regulating cholesterol synthesis may be a unique property of renal cancer cells or a previously unrecognized characteristic of a variety of cultured cells.