Production of imidazole alkaloids in cell cultures of jaborandi as affected by the medium pH

The effect of pH (from 4.8 to 9.8) on the production of pilosine and pilocarpine and on their partition between cell and medium was studied in two lineages (P and PP) of Pilocarpus microphyllus cell suspension cultures. Highest mass accumulation was observed at high pHs and both lineages produced pilocarpine while only lineage PP produced pilosine. Both alkaloids were released in the medium but higher accumulation occurred in the cells. The highest production of pilocarpine was at pH 8.8–9.8 in both cell lineages. Other imidazole alkaloids were also identified in both lineages. At all pHs tested, the pH in the media cultures tended to stabilize around 6 after 10–15 days of cultivation. NO₃ ⁻ and NH₄ ⁺ variation in the media might partially explain the pH stabilization.     

Stepharine production in morphogenic cell cultures of <Emphasis Type="Italic">Stephania glabra</Emphasis> (ROXB.) Miers

Young leaves of Stephania glabra (ROXB.) Miers. (Menispermaceae) were used to establish callus cultures with the goal of studying their ability to produce the valuable alkaloid stepharine. The establishment of callus cultures from this plant is extremely difficult because primary calli are not viable and must be transferred to a liquid culture medium for subsequent subculturing. All obtained cultures possessed high morphogenic or rhizogenic potential. The methanolic extracts of two examined cell lines were analyzed by HPLC with high-resolution mass spectrometry to determine the alkaloid composition. Eleven alkaloids were detected in both cultures, including stepharine, magnoflorine, menisperine, roemerine, palmatine, corydalmine, N-methylcorydalmine, columbamine, tetrahydropalmatine, jatrorrhizine and tetrandrine. The predominant alkaloid was stepharine, the structure of which was identified through ¹H and ¹³C NMR, UV, HRMS and tandem MS. Quantitative HPLC-UV analysis showed that stepharine was produced at high levels (0.9?% dry cell weight) in the morphogenic callus culture S2-L cultivated in liquid media. To our knowledge, this is the highest level of stepharine production identified in plant cell cultures. The overall production parameters of the culture have remained stable over a long-term cultivation period for 3 years.     

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.     

Induction of pilocarpine formation in jaborandi leaves by salicylic acid and methyljasmonate

Jaborandi seedlings were subjected to different treatments in order to study the induction of pilocarpine in the leaves. In addition four extraction methods were assessed to extract the alkaloid from dried leaves. The highest yielding extraction and recovery was observed when dried leaves were first treated with base and then extracted with chloroform. Salt stress (NaCl), wounding, hypoxia, and N and K omission of the nutrient soln caused reductions in pilocarpine contents. Whereas complete nutrient soln and P omission maintained normal levels of the alkaloid. Salicylic acid and methyljasmonate induced a 4-fold increase of pilocarpine, but this increase was dependent on the concentration and time after exposure.     

Antisense RNA-mediated suppression of benzophenanthridine alkaloid biosynthesis in transgenic cell cultures of California poppy

California poppy (Eschscholzia californica Cham.) cell cultures produce several benzophenanthridine alkaloids, such as sanguinarine, chelirubine, and macarpine, with potent pharmacological activity. Antisense constructs of genes encoding two enzymes involved in benzophenanthridine alkaloid biosynthesis, the berberine bridge enzyme (BBE) and N-methylcoclaurine 3'-hydroxylase (CYP80B1), were introduced separately into California poppy cell cultures. Transformed cell lines expressing antisense BBE or antisense CYP80B1 constructs and displaying low levels of BBE or CYP80B1 mRNAs, respectively, showed reduced accumulation of benzophenanthridine alkaloids compared with control cultures transformed with a beta-glucuronidase gene. Pathway intermediates were not detected in any of the transformed cell lines. The suppression of benzophenanthridine alkaloid biosynthesis using BBE or CYP80B1 antisense RNA constructs also reduced the growth rate of the cultures. Two-dimensional (1)H-nuclear magnetic resonance and in vivo (15)N-nuclear magnetic resonance spectroscopy showed no difference in the abundance of carbohydrate metabolites in the various transgenic cell lines. However, transformed cells with reduced benzophenanthridine alkaloid levels contained larger cellular pools of several amino acids including alanine, leucine, phenylalanine, threonine, and valine compared with controls. The relative abundance of tyrosine, from which benzophenanthridine alkaloids are derived, was less than 2-fold higher in antisense-suppressed cells relative to controls. These results show that alterations in the metabolic flux through benzophenanthridine alkaloid biosynthesis can affect the regulation of amino acid pools. These data provide new insight into the metabolic engineering of benzophenanthridine alkaloid pathways.     

长春花细胞培养与吲哚生物碱的生产

本文简要介绍长春花细胞培养与吲哚生物碱生产的研究概况,包括培养方法、培养系统、分析方法、培养条件的影响、高产细胞系的筛选和保存、生物碱的生物合成等方面。以求对我国的细胞培养工业化生产药用成分的研究有所借鉴。     

Alkaloid biosynthesis in Papaver sp. cells in culture and during organogenesis

In vitro cell cultures of two Papaver species, P. somniferum and P. bracteatum initiated from mature seeds were screened for their ability to produce alkaloids. Protocols for callus induction, somatic embryogenesis and organogenesis were established. The alkaloid contents were analysed by high-performance-liquid chromatography, thin-layer chromatography and spectrophotometric assays. Undifferentiated callus produced small amounts of sanguinarine, which increased with the degree of tissue differentiation. Embryogenic calli were maintained in culture for more than 2 years, retaining a high regeneration capability. Thin-layer chromatography analysis revealed variations in alkaloid spectrum between parallel cell lines. The morphinan alkaloid, thebaine, was found to be accumulated exclusively in morphogenous strains of P. bracteatum, and morphine was the major alkaloid in the spectrum of P. somniferum dedifferentiated callus. Regenerant plants synthesized thebaine and sanguinarine at the same level as juvenile plants grown from P. bracteatum seeds. We revealed differences in the ability to produce different types of alkaloids: seed-derived plants were able to accumulate thebaine while undifferentiated primary cell cultures produced only sanguinarine. The production of either sanguinarine and morphinan alkaloids are found in regenerants showing that both metabolic pathways were active in young plantlets.     

Alternative metabolic fates of hygrine in transformed root cultures of Nicandra physaloides

Alkaloid production by several Agrobacterium rhizogenes-transformed root lines of Nicandra physaloides was studied. Early in the culture cycle all lines contained predominantly hygrine, which has previously been reported to be the major alkaloid in roots of this plant. A number of other hygrine-derived alkaloids were identified, and these generally increased in importance as the cultures matured. Some lines were found to differ quite markedly in the relative importance of the different hygrine-derived alkaloids. The possibility is raised that alkaloid biosynthesis in N. physaloides root cultures may be a good model system in which to study metabolite partitioning in branched metabolic pathways.Abbreviations FW fresh weight - GC gas chromatography - MS mass spectrometry - MW molecular weight     

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.     

Characterization of Coptis japonica cells with different alkaloid productivities

Several cell lines of Coptis japonica with different alkaloid productivities were characterized to obtain information on how a high metabolite production is established. High and low metabolite producing cells, except those from one cell line, showed similar growth kinetics and a similar pattern of nutrient uptake. Amino acid contents, especially that of tyrosine, differed between cell lines, but no correlation was found between the amino acid or tyrosine levels and alkaloid production. Since the addition of tyrosine did not increase the production of berberine, this primary substrate is apparently not the limiting factor for high production in cultured Coptis cells. The addition of berberine to the medium revealed that low-producing cells also have the ability to store alkaloid, and that low productivity is not due to decomposition of alkaloids which have been produced. The direct measurement of the biosynthesis of berberine using ¹⁴C-tyrosine clearly showed that high-producing cells had a higher biosynthetic activity of berberine from tyrosine than low-producing cells. The measurement of enzyme activities in berberine biosynthesis indicated that the early steps of berberine biosynthesis are important in the increased production of berberine.     

Effect of subculture and elicitation on instability of taxol production in Taxus sp. suspension cultures

The production of secondary metabolites through plant cell suspension cultures is challenging because the level and pattern of production is often unstable and unpredictable. To investigate the factors affecting instability of secondary metabolite production, high Taxol (paclitaxel)-producing Taxus cultures induced by methyl jasmonate elicitation and their low Taxol-producing counterparts were compared with respect to growth and Taxol production kinetics. With Taxus subcultures we observe alternating states of high and low productivity. Parental cultures and their subcultures from five different cell lines were used to test whether a high-producing culture grows more slowly or dies more rapidly than a low-producing one. These cell lines were of three types: (1) Taxol-producing with and without methyl jasmonate, (2) Taxol-producing only upon elicitation, and (3) nonproducing. High-producing cultures show growth inhibition upon subculture, whereas nonproducing elicited cultures show little growth inhibition. Thus, growth inhibition is primarily due to Taxol or taxane accumulation and not a direct result of methyl jasmonate treatment. Through media exchange between high- and low-producing cultures, it appears that culture components generated by cells alter culture properties. To assess variability as a function of culture lineage, two groups of replicate cultures were generated either with a mixing of the parental flasks or segregation of parental flasks at each subculture. Although parental culture mixing did not reduce flask-to-flask variation, the production level of Taxol in subcultures resulting from mixing inocula was sustained at a higher level relative to segregated subcultures. The results are consistent with the possibility of cell signaling within the population that can induce Taxol production.     

Production of pilocarpine in callus of jaborandi (<Emphasis Type="Italic">pilocarpus microphyllus</Emphasis> stapf)

Summary Jaborandi (Pilocarpus microphyllus) is the only known source of pilocarpine, and although this alkaloid is the only natural compoud used to treat glaucoma, very little is known about its metabolism. Calluses obtained from petioles of P. microphyllus leaves were partially immersed in MS (Murashige and Skoog) liquid medium containing different pH levels (4.8, 5.8, and 6.8), nutrient concentration (MS normal basal medium concentration, absence of N, P, and K and three times normal concentrations), histidine and threonine (0.05, 0.15 and 0.75 mM) NaCl (25 and 75 mM) and polyethylene glycol (5 and 15%). Exposure to methyljasmonic acid (MJ) vapor was also investigated. The calluses were subjected to these conditions for 4 and 8d under gentle agitation in the dark. Some calluses were also kept under continuous light. Pilocarpine was identified in the liquid medium by liquid chromatography-mass spectrometry/mass spectrometry. The alkaloid quantifications in the media and cells were carried out by high performance liquid chromatography (HPLC). The calluses maintained in the dark released the greatest quantities of pilocarpine into the medium. Methyljasmonate inhibited the release of pilocarpine in the medium. High pH (6.8), absence and excess of N, excess of P, and 0.75 mM of histidine and threonine induced the highest production of the alkaloid.     

Production of emetine and cephaeline from cell suspension and excised root cultures of Cephaelis ipecacuanha

Production of the ipecac alkaloids, emetine and cephaeline was studied in cell suspension and excised root cultures of Cephaelis ipecacuanha. A two-stage cell suspension culture was developed for enhanced accumulation of the alkaloids. In the first-stage, suspension cultures were established in Murashige and Skoog's (MS) medium containing 2,4-D and NAA which was suitable for cell growth and the second-stage culture system was composed of MS medium containing IBA, IAA and 6% sucrose which favoured alkaloid production. The production of emetine and cephaeline was greatly increased in the two-stage culture method compared to the single-stage culture. Optimal alkaloid synthesis was obtained in excised root culture of the plant in medium composed of half-strength MS salts, IBA (0.25 mgl⁻¹) and 2% sucrose. A discernible higher accumulation of cephaeline in two-stage cell suspension culture as well as in excised root culture in comparison to that of the three-year-old roots was a     

Stability of alkaloid production in cell suspension cultures of Tabernaemontana divaricata during long-term subculture

Two cell lines of Tabernaemontana divaricata cell suspension culture with different growth and alkaloid production profiles were transferred to the same medium. During 30 subcultures the changes in growth and alkaloid production were followed and compared to those of the original cell lines. The presence of NAA and BAP in the medium resulted in an increase of biomass and alkaloid yield. The effect on the growth proved to be stable during these 30 subcultures. Alkaloid production showed a maximum in the 4th subculture after the change of the medium, and stabilized on a higher level than found in the original cell lines. During some growth cycles also the activities of tryptophan decarboxylase (TDC), strictosidine synthase (SSS), and phenylalanineammonia-lyase (PAL) were measured. In both the original cell lines and the derived cell lines, growth and alkaloid production proved to be stable all through the experiment, although the derived cell lines had a period of adaptation to the new medium with increased productivity.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - BAP benzylaminopurine - DW dry weight - TDC tryptophan decarboxylase - SSS strictosidine synthase - PAL phenylalanineammonia-lyase - PAT phenylalanineammonia-transaminase     

Jaborandi (Pilocarpus sp., rutaceae): A wild species

Jaborandi (Pilocarpus sp.;) is a shrub or small tree 3-7.5 m tall that can be found in native stands or as isolated individuals throughout Brazil. The leaves of jaborandi contain the alkaloid pilocarpine, widely used in ophthalmology for treatment of certain types of glaucoma and more recently for xerostomia. This paper discusses the current systems of production of jaborandi leaves in Maranhão, Northeastern Brazil. On one side, the extractivism practiced by indigenous people and peasants; on the other, the plantation recently established, as the result of heavy investment by a pharmaceutical company. In the extractive system, the non-sustainable exploitation of the drug-rich leaves of this plant species may have produced considerable damage to the native populations over time, reducing the size of the populations, and impoverishing their gene pools. The following potential effects of the plantation are discussed; contribute to diminishing the pressure on wild populations; impact on the local people currently involved in the extractivism; and its impacts on the local economies.     

Developmental regulation of benzylisoquinoline alkaloid biosynthesis in opium poppy plants and tissue cultures

Summary Opium poppy (Papaver somniferum L.) contains a number of pharmaceutically important alkaloids of the benzylisoquinoline type including morphine, codeine, papaverine, and sanguinarine. Although these alkaloids accumulate to high concentrations in various organs of the intact plant, only the phytoalexin sanguinarine has been found at significant levels in opium poppy cell cultures. Moreover, even sanguinarine biosynthesis is not constitutive in poppy cell suspension cultures, but is typically induced only after treatment with a funga-derived elicitor. The absence of appreciable quantities of alkaloids in dedifferentiated opium poppy cell cultures suggests that benzylisoquinoline alkaloid biosynthesis is developmentally regulated and requires the differentiation of specific tissues. In the 40 yr since opium poppy tissues were first culturedin vitro, a number of reports on the redifferentiation of roots and buds from callus have appeared. A requirement for the presence of specialized laticifer cells has been suggested before certain alkaloids, such as morphine and codeine, can accumulate. Laticifers represent a complex internal secretory system in about 15 plant families and appear to have multiple evolutionary origins. Opium poppy laticifers differentiate from procambial cells and undergo articulation and anastomosis to form a continuous network of elements associated with the phloem throughout much of the intact plant. Latex is the combined cytoplasm of fused laticifer vessels, and contains numerous large alkaloid vesicles in which latex-associated poppy alkaloids are sequestered. The formation of alkaloid vesicles, the subcellular compartmentation of alkaloid biosynthesis, and the tissue-specific localization and control of these processes are important unresolved problems in plant cell biology. Alkaloid biosynthesis in opium poppy is an excellent model system to investigate the developmental regulation and cell biology of complex metabolic pathways, and the relationship between metabolic regulation and cell-type specific differentiation. In this review, we summarize the literature on the roles of cellular differentiation and plant development in alkaloid biosynthesis in opium poppy plants and tissue cultures.     

Lysine decarboxylase activity and alkaloid production in Heimia salicifolia cultures

Levels of lysine decarboxylase, thought to exercise control over the biosynthesis of alkaloids derived from the amino acid, have been determined in alkaloid-producing and non-producing cell and organ cultures of Heimia salicifolia. The level of this enzyme has also been measured in cultures grown in the presence and absence of light. In chlorophyllous cell cultures enzyme activity correlates positively with chlorophyll; in shoot cultures the activity also parallels alkaloid production.     

Accumulation of beta-Carboline Alkaloids and Serotonin by Cell Cultures of Peganum harmala L: I. CORRELATION BETWEEN PLANTS AND CELL CULTURES AND INFLUENCE OF MEDIUM CONSTITUENTS

A number of cell cultures of Peganum harmala were initiated to check for a correlation between the harman alkaloid content of seedlings and cell lines derived therefrom. Despite a poor correlation between callus or suspension culture lines and parent plants, the mean alkaloid contents of strains derived from seedlings with higher alkaloid yields were nevertheless higher than the mean contents of strains derived from low yield plants. Generally, alkaloid accumulation decreased with the numbers of transfers. By permanent visual selection for fluorescent areas of the calluses, however, a mean content of 0.1% harman alkaloids and 0.1% serotonin could be maintained, which was 10 times higher than in unselected callus cultures.