Biotransformation of thebaine by cell cultures of Papaver somniferum and Mahonia nervosa

A Papaver somnifverum cell culture transforms thebaine into tetrahydrothebaine and thebainone while Mahonia nervosa transforms thebaine into oripavine     

Bound forms of alkaloids in Papaver somniferum and P. Bracteatum

The polysaccharide fraction of the pericarp and seed of Papaver somniferum were shown to contain bound forms of morphine which were derived from radioactive morphine fed to living plants. Bound forms of codeine, thebaine and some unidentified alkaloid-like compounds were also detected in the pericarp and bound thebaine occurred in the pericarp of Papaver bracteatum. The complexity and molecular weight of the bound alkaloids seemed to increase during ripening, and it is suggested that these substances represent transitional forms in the metabolism and transiocation of morphine from latex to seed.     

A rapid quantitative method for the determination of thebaine in Papaver bracteatum

A rapid method enabling a quantitative analysis of thebaine in capsules and latex of Papaver bracteatum has been devised, based on a TLC technique. This method was compared to the commonly used GLC procedure, and highly significant correlation coefficient (r = 0.90) and linear regression were found between the two methods. Values for concentrations to the nearest ±0.25% of the standard spots can be reached by this simple and rapid thebaine determination.     

Morphinan alkaloids in Papaver bracteatum: Biosynthesis and fate

The known metabolic pathway for hydrophenanthrene alkaloids in Papaver somniferum has been examined for occurrence in P. bracteatum, a species reported to contain thebaine but no codeine or morphine. 1,2-Dehydro-reticulinium-[3-¹⁴C] chloride and (±)-reticuline-[3-¹⁴C] were fed to P. bracteatum plants and both were incorporated, the former into reticuline and thebaine and the latter into thebaine, suggesting that thebaine biosynthesis is the same in the two species. Studies of the natural abundance of morphinan alkaloids in P. bracteatum and the results from feeding codeinone-[16-³H] and codeine-[16-³H] indicate that this species can reduce codeinone to codeine but can not perform either of the demethylations to produce codeinone or morphine. Fed thebaine-[16-³H] was substantially metabolized but not by pathways that involved demethylations to either oripavine or northebaine.     

The alkaloidal constituents of Papaver bracteatum arya II

Seven alkaloids were isolated from Papaver bracteatum Arya II, six of which: thebaine, 14β-hydroxycodeine, codeine, neopine, alpinigenine and protopine, have been previously found to be present in other types of this species. It is the first report of the isolation of O-methylflavinantine from P. bracteatum.     

Neodihydrothebaine and bractazonine,two dibenz[d,f]azonine alkaloids of Papaver bracteatum

Two new dibenz[d,f]azonine alkaloids, neodihydrothebaine and bractazonine were isolated from Papaver bracteatum. Their possible biosynthesis from thebaine is discussed. The structures of both new alkaloids are proven by synthesis. An isomeric dibenz[d,f]azonine compound was also prepared.     

Measurement of some Benzylisoquinoline Alkaloids in Different Organs of Persian Poppy during Ontogenetical Stages

Papaver bracteatum, a perennial species, has been known as a rich source of thebaine and a potential alternative to Papaver somniferum for the production of codeine and some semisynthetic antagonist drugs. In this study, ion mobility spectrum (IMS) of the root, leaf, bottom part of stem, upper part of stem, capsule wall, petal, and capsule content during developmental stages of P. bracteatum including annual rosette, perennial rosette, bud initiation, pendulous bud, preflowering, and lancing were investigated. The IMS revealed thebaine, papaverine, and noscapine as the major components of the extracted alkaloids. Based on the results of the study it appears that, at least in part, there is a competition among the biosynthesis pathways of papaverine, noscapine, and morphinan alkaloids from a common source . Root and capsule wall were the most potent organs for extraction of thebaine, while lancing stage was the best developmental stage for thebaine exploitation. However, it seems that total biomass of root and capsule wall plays a key role in the final selection of favorite organ. Although papaverine and noscapine in the stem at preflowering stage had the most quantity, significant amounts were found in the capsule wall. In general, total alkaloid content of leaf was lower than the other plant parts.     

Biotransformation of (RS)-reticuline and morphinan alkaloids by cell cultures of Papaver somniferum

(RS)-Reticuline was stereospecifically converted to (—)-(S)-scoulerine and (—)-(S)-cheilanthifoline by cell cultures of Papaver somniferum and (—)-(R)-reticuline was recovered as an optical pure compound by racemic resolution. (—)-Codeinone was converted in high yield to (—)-codeine in both cell culture and enzyme preparation, but the other morphinans, thebaine, codeine and morphine, were not metabolized.     

Cytochrome P450 3A Enzymes Catalyze the O6-Demethylation of Thebaine,a Key Step in Endogenous Mammalian Morphine Biosynthesis

Morphine, first characterized in opium from the poppy Papaver somniferum, is one of the strongest known analgesics. Endogenous morphine has been identified in several mammalian cells and tissues. The synthetic pathway of morphine in the opium poppy has been elucidated. The presence of common intermediates in plants and mammals suggests that biosynthesis occurs through similar pathways (beginning with the amino acid l-tyrosine), and the pathway has been completely delineated in plants. Some of the enzymes in the mammalian pathway have been identified and characterized. Two of the latter steps in the morphine biosynthesis pathway are demethylation of thebaine at the O³- and the O⁶-positions, the latter of which has been difficult to demonstrate. The plant enzymes responsible for both the O³-demethylation and the O⁶-demethylation are members of the Fe^II/α-ketoglutarate-dependent dioxygenase family. Previous studies showed that human cytochrome P450 (P450) 2D6 can catalyze thebaine O³-demethylation. We report that demethylation of thebaine at the O⁶-position is selectively catalyzed by human P450s 3A4 and 3A5, with the latter being more efficient, and rat P450 3A2. Our results do not support O⁶-demethylation of thebaine by an Fe^II/α-ketoglutarate-dependent dioxygenase. In rat brain microsomes, O⁶-demethylation was inhibited by ketoconazole, but not sulfaphenazole, suggesting that P450 3A enzymes are responsible for this activity in the brain. An alternate pathway to morphine, oripavine O⁶-demethylation, was not detected. The major enzymatic steps in mammalian morphine synthesis have now been identified.     

Morphine Biosynthesis in Opium Poppy Involves Two Cell Types: Sieve Elements and Laticifers

Immunofluorescence labeling and shotgun proteomics were used to establish the cell type–specific localization of morphine biosynthesis in opium poppy (Papaver somniferum). Polyclonal antibodies for each of six enzymes involved in converting (R)-reticuline to morphine detected corresponding antigens in sieve elements of the phloem, as described previously for all upstream enzymes transforming (S)-norcoclaurine to (S)-reticuline. Validated shotgun proteomics performed on whole-stem and latex total protein extracts generated 2031 and 830 distinct protein families, respectively. Proteins corresponding to nine morphine biosynthetic enzymes were represented in the whole stem, whereas only four of the final five pathway enzymes were detected in the latex. Salutaridine synthase was detected in the whole stem, but not in the latex subproteome. The final three enzymes converting thebaine to morphine were among the most abundant active latex proteins despite a limited occurrence in laticifers suggested by immunofluorescence labeling. Multiple charge isoforms of two key O-demethylases in the latex were revealed by two-dimensional immunoblot analysis. Salutaridine biosynthesis appears to occur only in sieve elements, whereas conversion of thebaine to morphine is predominant in adjacent laticifers, which contain morphine-rich latex. Complementary use of immunofluorescence labeling and shotgun proteomics has substantially resolved the cellular localization of morphine biosynthesis in opium poppy.     

Radioimmunoassay for quantitative determination of morphine in capsules of Papaver somniferum

A radioimmunoassay (RIA) procedure for the determination of pmol quantitites of morphine in capsule samples of Papaver somniferum was developed. An antiserum developed against a conjugate of morphine-3-hemisuccinate-BSA was relatively specific for morphine and possessed moderated cross-reactivity with codeine and mild cross-reactivity with thebaine, but none with narceine, papaverine, or noscapine. The standard curve was linear over a range of 0.01–0.20 ng. This assay allows for the rapid, sensitive and precise determination of morphine in unpurified aqueous extracts of capsule samples. The amounts of morphine in the aqueous extracts determined by radioimmunoassay were validated by high performance liquid chromatography (HPLC). The two methods show a high correlation coefficient (r = 0.98) with no significant difference in determinations of morphine content by RIA and HPLC.     

Gene actions for yield and its attributes and their implications in the inheritance pattern over three generations in opium poppy (<Emphasis Type="Italic">Papaver somniferum</Emphasis> L.)

The gene actions for yield and its attributes and their inheritance pattern based on five parameter model have been explored in four single crosses (NBIHT-5 × NBIHT-6, NBIHT-5 × NBMHT-1, NBMHT-1 × NBIHT-6 and NBMHT-2 × NBMHT-1) obtained using thebaine rich pure lines of opium poppy (Papaver somniferum L.) for three consecutive generations. All the traits showed nonallelic mode of interaction, however, dominance effect (h) was more pronounced for all the traits except thebaine and papaverine. The dominance × dominance (l) effects were predominant over additive × additive (i) for all traits in all the four crosses except for papaverine. The seed and opium yield, and its contributing traits inherited quantitatively. The fixable gene effects (d) and (i) were lower in magnitude than nonfixable (h) and (l) gene effects. The estimates of heterosis were also higher in comparison to the respective parents which suggested preponderance of dominance gene action for controlling most of the traits. The phenotypic coefficient of variation was marginally higher than those of genotypic coefficient of variation for all the traits. The traits thebaine, narcotine, morphine and opium yield had high heritability coupled with high genetic advance. The leaf number, branches per plant and stem diameter showed positive correlation with opium and seed yields. The selection of plants having large number of leaves, branches and capsules with bigger size would be advantageous to enhance the yield potential.     

Effect of gibberellic acid on flowering and the thebaine yield of different clones of Papaver bracteatum

Two foliar applications of gibberellic acid (GA₃, 250 mg l^–1) enhanced the flowering in various clones of Papaver bracteatum. The most pronounced effects were obtained in late flowering clones in which GA₃ increased significantly the number and weight of the capsules and thebaine yield per plant.Contribution from the Agricultural Research Organization, The Volcani Center, Bet Dagan, Israel, No. 1267-E, 1984 series.     

A rapid high performance liquid chromatographic method for the separation of the alkaloid precursor L-tyrosine and six tetrahydroisoquinoline alkaloids of Papaver somniferum

A high performance liquid chromatographic (HPLC) method was developed for the qualitative and quantitative determination of L-tyrosine and six common tetrahydroisoquinoline alkaloids (papaverine, noscapine, sanguinarine, morphine, codeine and thebaine) of Papaver somniferum. The reversed phase HPLC method yields baseline separation of the alkaloids in 20 min and is achieved using a simple H₂O: MeOH linear gradient. Silanol effects commonly associated with the separation of such strongly basic compounds were minimized by the addition of the amine modifier, triethylamine, to the mobile phase.     

Effect of Tyrosine on the Production of Alkaloids in the High-Yielding Cell Lines of Papaver somniferum Tissue Culture

The high yielding cell lines were isolated from the heterogenous callus culture of Papaver somniferum established on modified Murashige and Skoog’s medium. These cell lines were transferred to liquid medium, and maintained for six months by frequent subculturing. The tissues were supplied with different concentrations (12.5, 25, 50 and 100 mg/100 ml) of tyrosine and analysed quantitatively for their alkaloidal contents. Six major opium alkaloids-morphine, codeine, thebaine, narceine, narcotine and papaverine, were identified. The tissue grown on liquid medium supplemented with 12.5 mg tyrosine/100 ml showed maximum percentage of alkaloids and therefore this concentration is considered as the most favourable condition and can be utilized for the large scale production of alkaloids from the cell lines.     

Synthesis of morphinane alkaloids during opium poppy somatic embryogenesis

Opium poppy (Papaver somniferum L.) tissue cultures were examines by thin-layer and high performance liquid chromatography (TLC; HPLC) for qualitative and quantitative changes in morphinane alkaloid content during somatic embryogenesis. Somatic embryos were examined at weekley intervals over a 7-week induction and maturation period. Thebaine was the only morphinane positively identified in tissue extracts and in spent growth media. Neither morphine nor codeine were produced in detectable quantities during somatic embryogenesis. Production of thebaine was developmentally regulated, gradually increasing following the removal of auxin from the culture medium. Accumulation of this alkaloid in the growth medium paralleled its appearance in somatic embryos. Alkaloid synthesis in somatic embryos appeared to require a minimum level of organization that could also be disrupted by the spontaneous loss of embryogenic potential that was observed in some culture lines.