Effects of paclitaxel-producing fungal endophytes on growth and paclitaxel formation of <Emphasis Type="Italic">Taxus cuspidata</Emphasis> cells

Effects of a fungal endophyte, Fusarium mairei, on growth and paclitaxel formation of Taxus cuspidata cells were investigated by adding fungal endophyte culture supernatant (FECS) to suspension cultures of T. cuspidata cells. The main effective chemical responsible for paclitaxel formation in FECS was an exopolysaccharide (EPS) of molecular weight ~2 kDa. FECS fractions except EPS stimulated growth of Taxus cells but had no effects on paclitaxel accumulation. Additionally, elicitation efficiency of FECS based on different culture conditions was studied. EPS content in FECS was related to FECS culture conditions. FECS with long cultivation and high-aeration cultivation contained higher EPS content and resulted in higher paclitaxel yield than that with short cultivation and low-aeration cultivation. The maximum yield of paclitaxel from Taxus cultures, elicited by FECS with 9-day cultivation, was 4.7-fold that of the control cultures.     

Taxol-induced apoptotic cell death in suspension cultures of Taxus cuspidata

Taxol caused apoptotic cell death of Taxus cuspidata in suspension cultures. Typical morphological and biochemical changes of apoptosis were observed by microscopy and total DNA agarose gel electrophoresis. Taxus cuspidata responded to the added Taxol by increasing the biosynthesis of Taxol. The percentage of apoptotic cells in total cells increased with the concentration of added Taxol. With Taxol added at 10 mg l^–1, the maximum concentration of Taxol produced was 23 mg l^–1, 3 times higher than that of the control culture.     

Paclitaxel production in suspension cell cultures of Taxus

Five separate cell lines, three of Taxus canadensis Marsh. and two of Taxus cuspidata Sieb. et Zucc., were used to test the effect of carbohydrates and plant growth regulators on the growth of cells and production of paclitaxel in culture. There was no significant correlation between growth of cells and paclitaxel production. While no single medium was developed that was optimal for all cell lines, it was possible to develop a medium for each species that represented a superior combination of growth and paclitaxel production. A combination of NAA and thidiazuron produced the best combination of growth and paclitaxel production in cell lines of T. canadensis, while IAA and BA produced the best results in cell lines of T. cuspidata. A mixture of sucrose and fructose gave the best combination of growth and paclitaxel production. The addition of carbohydrates midway through the growth cycle increased the rate at which paclitaxel accumulated in the culture medium. The highest paclitaxel concentration obtained was 14.78±0.86 mg 1^–1 (n=3).Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - 2ip 6-(,-dimethylamino)-purine - BA 6-benzyladenine - IAA indole-3-acetic acid - IBA indole-3-butyric acid - kinetin 6-furfurylaminopurine - NAA -napthaleneacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid - thidiazuron 1-phenyl-3 (1,2,3-thiadiazol-5-yl)urea     

Interactions of Taxol-producing endophytic fungus with its host (Taxus spp.) during Taxol accumulation

Endophytic fungi (Fusarium mairei) culture broth (EFCB) was added to cell suspension cultures of Taxus cuspidata. After 5 days, cultures of T. cuspidata given 4 ml of EFCB produced a maximal yield of 6.11 mg/l paclitaxel, with a release ratio of 75%, 2- and 6.8-fold, respectively, greater than the controls. The active element in EFCB is an exopolysaccharide of ∼79 kD. Endophytic fungi produced 0.19 mg/l of paclitaxel in its producing medium. However, when the supernatant of Taxus cell suspension cultures from day 20 was added to the paclitaxel-producing medium, the biomass of fungi decreased by 24% and the yield of paclitaxel by 45%. In a co-culture system of plant and fungus, the yield of paclitaxel (12.8 mg/l) was >2-fold higher than that in the EFCB-treatment system.     

5‐Aminolevulinic acid promotes callus growth and paclitaxel production in light‐grown Taxus cuspidata suspension cultures

Cultured plant cells generally produce low levels of secondary metabolites, and elicitors of secondary metabolites usually inhibit callus growth. The aim of this study was to determine the effect of 5‐aminolevulinic acid (ALA), a chlorophyll precursor that promotes plant growth, on callus induction from leaves of Taxus cuspidata, and on callus growth on solid medium. ALA at 0.76, 7.6, and 76 μM had similar effects on callus induction and growth, while ALA at 760 μM had negative effects. Next, the effects of ALA concentrations on callus growth and paclitaxel production in suspension cultures in the dark were evaluated. The results showed that 0.76 and 7.6 μM ALA stimulated growth and paclitaxel production, while 76 μM ALA had negative effects. ALA is thought to promote cellular activity under light conditions. Therefore, the effects of light intensity on callus growth and paclitaxel production in the presence of ALA were evaluated. Our results showed that the best conditions for callus growth and paclitaxel production were 7.6 μM ALA under photosynthetically active radiation of 12 μmol photons m^?2 s^?1. Callus growth and paclitaxel production were inhibited under stronger light (24 μmol photons m^?2 s^?1). Together, these results show that ALA promoted callus growth and the production of paclitaxel by light‐grown cultured T. cuspidata cells.     

Stable transformation and long-term maintenance of transgenic <Emphasis Type="Italic">Taxus</Emphasis> cell suspension cultures

A cell line of Taxus cuspidata has been transformed with wild-type Agrobacterium rhizogenes ATCC strain 15834 containing binary vector pCAMBIA1301 and, separately, with A. tumefaciens strain EHA105 containing binary vector pCAMBIA1305.2. Additionally, a cell line of T. chinensis has been transformed with wild-type A. rhizogenes ATCC strain 25818 containing binary vector pCAMBIA1301. The two transgenic T. cuspidata cell lines have been maintained in culture for more than 20 months, and the transgenic T. chinensis cell line for more than 9 months, with no loss of reporter gene expression or antibiotic resistance. The introduced genes had no discernable effect on growth or Taxol production in the transgenic cell lines when compared to the parent control. The methods for transforming non-embryogenic Taxus suspension cultures are described.     

Manipulation by culture mixing and elicitation of paclitaxel and baccatin III production in Taxus baccata suspension cultures

Summary Experiments were carried out with Taxus baccata cell lines showing different paclitaxel-producing capacities (between 1.74 and 19.91 mgl^&#x2212;1) when growing in a selected product-formation medium that specifically stimulated the production of taxane to the detriment of cell growth. Through mixing low-, medial- and high-producing lines, it could be observed that paclitaxel productivity in the resulting mixed lines was clearly higher than the mean productivity of the individual lines before mixing. This suggests that culture components generated by high-producing individual lines within the population might induce paclitaxel production. Although the accumulation of paclitaxel and baccatin III was higher when 100 &#x03BC;M methyl jasmonate was added to the subcultures of the mixed lines, the results indicate that exogenously applied methyl jasmonate was not the first factor to stimulate taxane production. The possible effects of methyl jasmonate elicitation and paclitaxel accumulation on cell viability are also considered.     

Enhancement of paclitaxel production by abscisic acid in cell suspension cultures of Taxus chinensis

Addition of 5 mg abscisic acid l^–1 after 12 days' growth of Taxus chinensis suspension culture gave the greatest paclitaxel accumulation at 11 mg l^–1, which was almost 5 times that of the control culture. The highest paclitaxel production, 18 mg l^–1, was obtained using 5 mg abscisic acid l^–1 and 20 mg methyl jasmonate l^–1.     

Spatio-Temporal Distributions of Metal Ions and Taxol of Taxus cuspidata Cells Immobilized on Polyurethane Foam

Distinct spatio-temporal variations of metal ions and Taxol production were observed for Taxus cuspidata cells immobilized on polyurethane foam. The Taxol content in the inner foam layer reached 215 μg g⁻¹ at day 30, which was 40-fold higher than that in the outer foam layer, and the Ca²⁺ and Mg²⁺ contents were 5.3 and 3.7 times higher, while the K⁺ content was 5.5 times lower. Thus higher intracellular Ca²⁺ and Mg²⁺ contents and lower intracellular K⁺ content may favor the Taxol biosynthesis in immobilized Taxus cuspidata.     

Improved paclitaxel production by in situ extraction and elicitation in cell suspension cultures of Taxus chinensis

Dibutyl phthalate, oleic acid and terpineol were used to extract paclitaxel in situ fromTaxus chinensis suspension cultures. Oleic acid/terpineol (1:1, v/v) added to the cultures gave a higher paclitaxel concentration, compared with either of them alone. Oleic acid/terpineol (1:1, v/v) incorporated into the cultures at 3:50 (v/v) 4 days after elicitation, which was carried out by adding 50 mg chitosan l^–1, 60 M methyl jasmonate and 30 M Ag⁺ to 10-day-old cultures, resulted in the greatest paclitaxel production of 48 mg l^–1 at day 10 after elicitation. This was double that of the culture by elicitation, and 7-fold higher than that of the culture by in situ extraction.     

Intermittent maltose feeding enhances paclitaxel production in suspension culture of Taxus chinensis cells

High paclitaxel production (26 mg l^–1) was achieved through the intermittent feeding of 3, 1, and 2% (w/v) sucrose at days 0, 7, and 21, respectively, to a suspension culture of Taxus chinensis cells. Intermittent feedings of 1 and 2% (w/v) maltose at days 7 and 21, respectively, to the culture increased the paclitaxel production up to 67 mg l^–1.     

Embryo culture and taxane production inTaxus spp

Summary We have previously shown (Flores and Sgrignoli, 1991) that immature embryos ofTaxus brevifolia andT. X media are capable of precocious germination and can grow into seedlings in vitro. The cultural and environmental parameters for embryo germination and conversion into seedlings have been optimized and extended toT. baccata andT. cuspidata. A 14-h photoperiod improved embryo germination and growth into seedlings. A pregermination cold treatment of the seeds had a positive effect on both the onset and percentage of germination. Embryos from cold-treated seeds germinated earlier and at a higher frequency than those from control seeds. Boron was necessary for embryo germination, and levels of this micronutrient were established for optimal growth and germination ofT. brevifolia andT. X media cv. Hicksii embryos. Gupta and Durzan’s medium was superior to White’s for embryo germination and root formation. Naphthaleneacetic acid stimulated root formation in embryo-derived seedlings. We also found that immature embryos could be induced to form callus with embryogenic potential. Taxol and related taxanes were detected in embryo- derived seedlings.     

Seedling establishment ofCastanopsis cuspidata var.sieboldii andPersea thunbergii on lava and scoria of the 1962 eruption on Miyake-jima Island,the Izu Islands

Seedling establishment ofCastanopsis cuspidata var.sieboldii Nakai andPersea thunbergii Kosterm. (Machilus thunbergii Sieb. et Zucc.) in early succession was studied on the lava and the scoria of the 1962 eruption on Miyake-jima Island of the Izu Islands. While tall individuals (> 1 m) ofP. thunbergii were found on both the lava and the scoria, those ofC. cuspidata (> 1 m) were found only on the lava. The height growth rate ofC. cuspidata was very low on the scoria, and there was no individual ofC. cuspidata taller than 0.4 m on the scoria. The proportion of yellow leaved individuals was much higher (37.1%) inC. cuspidata than inP. thunbergii (4.0%) on the scoria, while it was similar between the two species on the lava.Persea thunbergii seemed to be able to establish on both the lava and the scoria, butC. cuspidata established only on the lava. The differences in growth rate and vigor between the two species on the lava and the scoria in early succession may influence later stages of succession.     

Recovery of extracellular paclitaxel from suspension culture of Taxus chinensis by adding inorganic salts

A new and simple method was developed to recover paclitaxel from the extracellular culture medium of Taxus chinensis. More than 80% of paclitaxel in the medium was obtained by adding 7.8 mM MgSO₄ or greater and then centrifuging. The concentration of baccatin III in the supernatant did not change after MgSO₄ treatment while paclitaxel was precipitated in the pellet. This method was used to recover paclitaxel without baccatin III from the extracellular culture medium of Taxus species.     

Flow cytometric analysis of protein content in Taxus protoplasts and single cells as compared to aggregated suspension cultures

Plant suspension cultures are highly aggregated, preventing the direct application of flow cytometry for the study of population dynamics. The utility of single cells to accurately represent aggregated suspension cultures was tested through the analysis of total protein content. Specifically, protein content of two Taxus cuspidata suspension culture lines was studied using the Bradford assay for aggregated suspension cultures, and flow cytometry with fluorescein isothiocyanate staining for protoplasts and single cells. Taxus protein levels were measured at 75–160 mg per gram dry weight via the Bradford assay. Aggregated suspension cultures, protoplasts, and single cells predicted the same trend of protein content over the culture period (21 days). Normalized protein content of isolated single cells was statistically equivalent to aggregated suspensions for both cell lines. However, normalized protein content of isolated protoplasts showed significant differences from aggregated suspensions for one of the two cell lines. Elicitation with methyl jasmonate (MJ) is commonly utilized to increase paclitaxel accumulation in suspension cultures, and therefore the effect of MJ elicitation on protein content in aggregated suspensions, isolated single cells and protoplasts was assessed. Aggregated suspension cultures, protoplasts, and single cells did not show any change in total protein content following elicitation with MJ at 200 M on day 7. This study illustrates the usefulness of flow cytometry for obtaining culture population information and the value of using intact single cells for the study of plant metabolism.     

Candida guilliermondii grows on rare pentoses – implications for production of pure xylitol

Feeding sucrose at 20 g l^–1 on day 16 gave maximum paclitaxel production at 10 mg l^–1 when Taxus chinensis in 5 l bioreactors. Paclitaxel accumulation was doubled by the cultivation of cells initially with dissolved O₂ tension at 60% for 20 days followed by being at 20% for another 12 days in the bioreactor. Combination of these two strategies gave maximum paclitaxel production of 19 mg l^–1 after 32 days.     

Paclitaxel and baccatin III production induced by methyl jasmonate in free and immobilized cells of Taxus baccata

The effects of 100 and 200 μM methyl jasmonate (MJA) on cell proliferation and paclitaxel and baccatin III production were investigated in free and alginate immobilized cells of Taxus baccata growing in a selected product formation culture medium. The greatest accumulation of paclitaxel (13.20 mg dm⁻³) and baccatin III (4.62 mg dm⁻³) occurred when 100 μM MJA was added to the culture medium of cells entrapped using a 1.5 and 2.5 % alginate solution. The effects of different treatments on the viability of cultured cells and their capacity to excrete both taxanes into the surrounding medium were considered.     

Development of an <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation method for <Emphasis Type="Italic">Taxus</Emphasis> suspension cultures

The FDA-approved anti-cancer compound paclitaxel is currently produced commercially by Taxus plant cell suspension cultures. One major limitation to the use of plant cell culture as a production platform is the low and variable product yields. Therefore, methods to increase and stabilize paclitaxel production are necessary to ensure product security, especially as the demand for paclitaxel continues to rise. Although a stable transformation method for Taxus suspension cultures has been developed, stable transformant yields are low (around 1% of experiments) and the method does not translate to the Taxus cuspidata Siebold and Zucc. and Taxus canadensis Marshall cell lines utilized in this study. Therefore, a new method for Agrobacterium-mediated transformation of Taxus callus and suspension cultures was developed through identification of the optimal Agrobacterium strain, inclusion of an anti-necrotic cocktail (silver nitrate, cysteine, and ascorbic acid) and increased recovery time for cells after cocultivation, the time following infection with Agrobacterium tumefaciens. Application of the increased recovery time to transformation of T. cuspidata line PO93XC resulted in 200 calluses staining positive for GUS. Additionally, two transgenic lines have been maintained with stable transgene expression for over 5 yr. This method represents an improvement over existing transformation methods for Taxus cultures and can be applied for future metabolic engineering efforts.     

Stimulation of adventitious rooting of Taxus species by thiamine

Summary Results obtained from using root inducing compounds on Taxus species cuttings suggested that rooting could be significantly enhanced by the presence of thiamine. This observation was verified using a root inducing solution containing a set concentration of IBA (0.2%), NAA (0.1%), and supplemented with various concentrations of thiamine. The best rooting response for Taxus cuspidata stem cuttings was found using this solution supplemented with 0.08% thiamine. Rooted cuttings were easily established and developed into vigorous plants. In addition, Taxus brevifolia shoots obtained from tissue cultures via in vitro organogenesis also responded favorably to this 0.08% thiamine supplemented rooting solution.     

Taxol production in suspension cultures of Taxus baccata

The response of Taxus baccata (PC2) to basic manipulations of culture conditions is described. Suspension cultures of Taxus baccata (PC2) were maintained at 25°C on a modified B5 medium with two-week transfers. Under these conditions, no taxol^® is formed. However, if the cells are left in the same medium for 7 or more additional days, taxol is produced and released (ca. 90%) into the extracellular medium. Levels as high as 13 mg 1^–1 extracellular taxol were achieved in shake flask cultures and taxol was the primary taxane formed representing between 50 and 80% of total taxane in the medium. The cells are sensitive to changes in culture conditions and cultures cycle through periods of high (13 mg 1^–1) and low (<0.1 mg 1^–1) levels of taxol production during extended culture. Picloram was the most effective of the auxins tested with respect to cell growth but it suppressed taxol production. Addition of fructose to moderately-productive cultures (ca. 4 mg 1^–1) improved taxol production, but cultures in a high producing state did not respond. Glucose suppressed taxane production. Two isoprenoids (geraniol and pinene) had a modest effect on taxol production when added to cultures at 10 mg 1^–1.®|Taxol is a registered trademark of Bristol Meyer Squibb for paclitaxel