Feasible production of camptothecin by hairy root culture of Ophiorrhiza pumila

Camptothecin derivatives are used clinically as anti-tumor alkaloids. Camptothecin and its related compounds are at present obtained by extraction from intact plants, but transformed plant cell cultures may be an alternative source of production. We have established a hairy root culture of Ophiorriza pumila (Rubiaceae) transformed by Agrobacterium rhizogenes strain 15834. This hairy root culture grew well, increasing by 16-fold during 5 weeks in liquid culture, and it produced camptothecin as a main alkaloid up to 0.1% per dry weight of the cells. Interestingly, not only the hairy root cells contained camptothecin, but the culture medium also accumulated substantial amounts. Camptothecin content in the medium was increased by the presence of a polystyrene resin (Diaion HP-20) that absorbed camptothecin. Camptothecin was easily recovered from the resin. Our method is the most feasible and commercially applicable way to produce camptothecin by in vitro cell culture.     

Bioreactor production of camptothecin by hairy root cultures of Ophiorrhiza pumila

A large-scale culture of hairy root of Ophiorrhiza pumila using a modified 3 l bioreactor was established. The hairy roots, incited by infection of Agrobacterium rhizogenes were grown in the bioreactor equipped with a stainless net. The final concentration of camptothecin was 0.0085% fresh wt of tissue, and the total production of camptothecin, an anti-neoplastic quinoline alkaloid, reached 22 mg over 8 weeks' culture in the reactor. Approx. 17% (3.6 mg) of the total camptothecin produced was excreted into the culture medium.     

Transport of camptothecin in hairy roots of Ophiorrhiza pumila

We have investigated the subcellular accumulation and transport of camptothecin (CPT), a monoterpene indole alkaloid, in hairy roots of Ophiorrhiza pumila. This hairy root produces high amounts of CPT and excretes it into the culture medium. When the hairy roots were exposed to UV radiation, autofluorescence emitted from CPT showed subcellular localization of CPT in the vacuole. Treatment with several inhibitors suggested that CPT excretion is a transporter-independent passive transport controlled by the concentration gradient of the compound. Interestingly, the hairy roots treated with brefeldin A, a vesicle transport inhibitor, showed increased CPT excretion. This could be explained by an increased transport rate of CPT from the endoplasmic reticulum (ER) to the cytoplasm when transport of CPT to the vacuole is blocked. The much higher concentration of CPT in the cytoplasm resulted in the increased excretion rate. This result indicates that CPT is biosynthesized at the ER and transported to accumulate in the vacuole by the same machinery that is used for vacuolar protein sorting. How O. pumila is insensitive to CPT is discussed.     

Diterpenoid production in hairy root culture of Salvia sclarea L

Growth and diterpenoid accumulation (salvipisone, ferruginol, aethiopinone and 1-oxoaethiopinone) during the growth cycle of a Salvia sclarea hairy root culture are described. The roots transformed by Agrobacterium rhizogenes (LBA 9402) were cultured in half-strength B5 liquid medium supplemented with 30 g L(-1) sucrose under light (16 h/8 h light/dark). A culture period of 30 days was optimal for both biomass and diterpenoid production. The total content of four diterpenoids in the hairy roots [(27.3 +/- 0.6) mg g(-1) dry weight] was higher than that of roots of field-grown S. sclarea plants [(3.15 +/- 0.15) mg g(-1) dry weight]. In transformed roots, aethiopinone was the main diterpenoid, whereas the principal diterpenoid of natural roots was salvipisone.     

Adventitious root induction in Ophiorrhiza prostrata: a tool for the production of camptothecin (an anticancer drug) and rapid propagation

Roots of Ophiorrhiza prostrata D. Don serve as a rich source of camptothecin (CPT), an anticancer drug. Because of the large-scale collection of its roots, the plant has become a threatened species. The present study accomplishes the induction of adventitious roots as a means for the production of CPT as well as for the large-scale propagation of this anticancer drug plant using leaf and internode explants. The biomass yield and CPT content of adventitious roots induced from different explants were compared to roots developed on ex vitro rooted stem cuttings. Adventitious roots were produced on half-strength Murashige and Skoog (MS) medium supplemented with 10.74 μM α-naphthaleneacetic acid and 2.32 μM kinetin at mean fresh weights of 0.753, 0.739 and 0.748 g roots from leaf, internode and shoot, respectively. CPT yield from in vitro derived roots after 50, 80 and 120 days of incubation (0.028, 0.06 and 0.1% dry weight, respectively) was not significantly different from those harvested at the same age from ex vitro rooted (0.03, 0.06 and 0.13%, respectively) stem cuttings. CPT from subcultured roots derived from solid (0.08%) medium was lower than from suspension culture medium (0.12%). Subsequent cultures of the adventitious roots showed a stable production of CPT (0.16%). The yield of CPT from 360-day-old plant-derived roots was 0.19%. Elicitation using methyl jasmonate and acetyl salicylic acid exhibited no enhancement in CPT yield. In vitro propagation through direct shoot regeneration was achieved from the adventitious roots upon transfer to MS medium with 8.87 μM N ⁶-benzyladenine (BA) and 2.46 μM indole-3-butyric acid (IBA) with a mean of 21.2 shoots per culture in 50 days. The shoots upon subculture on medium having the same level of BA and IBA underwent rapid proliferation. The shoots transferred to field conditions after in vitro rooting exhibited 95% survival. Adventitious root induction, from leaf and internode explants, enables the feasible production of CPT as well as the large-scale rapid propagation of this species which can safeguard it from extinction.     

Nanoelicitor based enhancement of camptothecin production in fungi isolated from Ophiorrhiza mungos

In the study, endophytic fungi isolated from Ophiorrhiza mungos were screened for camptothecin (CPT) biosynthetic potential by high performance liquid chromatography (HPLC). Among the 16 fungi screened, OmF3, OmF4, and OmF6 were identified to synthesize CPT. Further LC–MS analysis also showed the presence of CPT specific m/z of 349 for the extracts from OmF3, OmF4, and OmF6. However, the fragmentation masses with m/z of 320, 305, 277 and 220 specific to the CPT could be identified only for the OmF3 and OmF4. These CPT producing fungi were further identified as Meyerozyma sp. OmF3 and Talaromyces sp. OmF4. The cultures of these two fungi were then supplemented with nanoparticles and analyzed for the quantitative enhancement of CPT production by LC–MS/MS. From the result, Meyerozyma sp. OmF3 was found to produce 947.3 ± 12.66 μg/L CPT, when supplemented with 1 μg/mL zinc oxide nanoparticles and the same for uninduced parental strain OmF3 was only 1.77 ± 0.13 μg/L. At the same time, Talaromyces sp. OmF4 showed the highest production of 28.97 ± 0.37 μg/L of CPT when cultured with 10 μg/mL silver nanoparticles and the same for uninduced strain was 1.19 ± 0.24 μg/L. The observed quantitative enhancement of fungal CPT production is highly interesting as it is a rapid and cost effective method. The study is remarkable due to the identification of novel fungal sources for CPT production and its enhancement by nanoparticle supplementation.     

Lobeline production by hairy root culture of Lobelia inflata L.

Hairy roots were obtained following inoculation of the stems of Lobelia inflata L. with Agrobacterium rhizogenes strain ATCC 15834. These hairy roots contained agropine and mannopine. In addition, lobeline was detected by HPLC and confirmed by mass spectrometry. Various media were tested for the growth of hairy roots as well as for the content of lobeline in hairy roots. The growth rate of hairy roots cultured in Nitsch and Nitsch's medium was approximately one third of those cultured in other media. The lobeline content of hairy roots (18–54 g/g dry weight) cultured in these media was the same order of magnitude compared with that of roots of L. inflata (24 g/g dry weight) cultivated in pots. The hairy roots cultured in Nitsch and Nitsch's medium were morphologically different from those cultured in other media.Abbreviations MS medium Murashige and Skoog's medium - 1/2 MS medium one-half strength of the standard Murashige and Skoog's medium - B5 medium Gamborg's B5 medium - NN medium Nitsch and Nitsch's medium - FW fresh weight - DW dry weight     

Micropropagation of horseradish hairy root by means of adventitious shoot primordia

Adventitious shoot primordia were formed on horseradish hairy root cultured in dark. Plantlet formation frequency from the primordia was higher than that from root fragments. Culture for 26 days provided the adventitious shoot primordia, which had the highest potential for plantlet formation (53% explants at 40 days). Benzyladenine supplementation in the dark caused primordium enlargement, but did not increase the number of primordia formed. After adventitious shoot primordia were encapsulated with calcium alginate, kinetin supplementation (2.0–4.0 M) increased the shoot formation frequency (65–80% explants at 20 days) in the light, but also promoted the undesirable formattion of multiple shoots. Supplementation with naphthaleneacetic acid (0.27–5.4 M) in the calcium alginate beads in light enhanced the root emergence from primordia without inhibition of plantlet formation when the encapsulated beads were put on the agar-medium without naphthaleneacetic acid.     

Statistical medium optimization for enhanced azadirachtin production in hairy root culture of Azadirachta indica

Azadirachtin, a well-known biopesticide, is a secondary metabolite extracted from the seeds of Azadirachta indica. In the present study, azadirachtin was produced in hairy roots of A. indica, generated by Agrobacterium rhizogenes-mediated transformation of leaf explants. Liquid cultures of A. indica hairy roots were developed with a liquid-to-flask volume ratio of 0.15. The kinetics of growth and azadirachtin production were established in a basal plant growth medium containing MS medium major and minor salts, Gamborg’s medium vitamins, and 30 g l⁻¹ sucrose. The highest azadirachtin accumulation in the hairy roots (up to 3.3 mg g⁻¹) and azadirachtin production (∼44 mg l⁻¹) was obtained on Day 25 of the growth cycle, with a biomass production of 13.3 g l⁻¹ dry weight. To enhance the production of azadirachtin, a Plackett–Burman experimental design protocol was used to identify key medium nutrients and concentrations to support high root biomass production and azadirachtin accumulation in hairy roots. The optimal nutrients and concentrations were as follows: 40 g l⁻¹ sucrose, 0.19 g l⁻¹ potassium dihydrogen phosphate, 3.1 g l⁻¹ potassium nitrate, and 0.41 g l⁻¹ magnesium sulfate. Concentrations were determined by a central composite design protocol and verified in shake-flask cultivation. The optimized medium composition yielded a root biomass production of 14.2 g l⁻¹ and azadirachtin accumulation of 5.2 mg g⁻¹, which was equivalent to an overall azadirachtin production of 73.84 mg l⁻¹, 68% more than that obtained under non-optimized conditions.     

Continuous production of glycosides by a bioreactor using ginseng hairy root culture

Ginseng (Panax ginseng) hairy-root culture, established by transformation with the Ri plasmid of Agrobacterium rhizogenes, had a higher potential to biotransform (RS)-2-phenylpropionic acid (PPA) to (RS)-2-phenylpropionyl -d-glucopyranoside (1) (71% conversion ratio), (2RS)-2-O-(2-phenylpropionyl)-d-glucose (2) (8%), (2S)-2-phenylpropionyl 6-O--d-xylopyranosyl--d-glucopyranoside (3) (10%) and a myo-inositol ester of (R)-2-phenylpropionic acid (4) (5%). Moreover, the hairy root excreted about a half of the conversion products, 46.8%. The continuous glycosylation of PPA was carried out using a bioreactor with ginseng hairy root, and the continuous long-term reaction for 2 months was successfully made at a high conversion ratio, 30% or more on average.This work is Part 84 in the series Studies on Plant Tissue Culture. For Part 83, see Asaka et al. (1993) Correspondence to: T. Furuya     

Optimization of the sucrose and ion concentrations for saikosaponin production in hairy root culture ofBupleurum falcatum

Saikosaponin productivity was examined in aBupleurum falcatum L. BFHR2 hairy root culture in response to changes in the sucrose content (2≈8%), nitrogen content (0≈250 mM NH₄NO₃), phosphate content (0≈12 mM NaH₂PO₄), and the potassium content (0≈87.2 mM KCl) of the culture media. We found that the conditions for maximal saikosaponin production differed from those for optimal root growth. Highest saikosaponin yield was achieved for 8% sucrose, 62 mM NH₄NO₃, 1.2 mM NaH₂PO₄, and 0.5 mM KCl.     

Enhanced production of valerenic acid in hairy root culture of Valeriana officinalis by elicitation

Valerenic acid (VA) is a pharmacologically-active sesquiterpene found in valerian (Valeriana officinalis L., Valerianaceae) roots and rhizomes. The plant produces only small amounts of this metabolite naturally. So, induction of hairy roots as well as elicitation can be useful to increase its commercial production. In this study, Wild-type strain ‘A13’ of Agrobacterium rhizogenes was used to induce hairy roots in valerian. The influence of three different elicitors including Fusarium graminearum extract (FE), methyl jasmonate (MJ) and salicylic acid (SA) on VA production in the selected hairy root line ‘LeVa-C4’ was also investigated. The 23-day-old cultures were treated with different concentrations of the elicitors at exposure time of 3 and 7 days. FE (1%) and MJ (100 µM L^?1) highly promoted VA production at 7 days after elicitation, to a level of 12.31- and 6-fold higher than that of non-elicited controls, respectively, and FE did not exert any negative effects on biomass yield of hairy root. SA did not significantly increase the production of VA. This is the first time study to assess the elicitation of hairy root cultures to promote VA biosynthesis in valerian and the resulting experiments demonstrated that F. graminearum extract and MJ were indeed a potent inducer of VA biosynthesis.     

Genista tinctoria hairy root cultures for selective production of isoliquiritigenin

Hairy root cultures were established after inoculation of Genista tinctoria in vitro shoots with Agrobacterium rhizogenes, strain ATCC 15834. In transformed roots of G. tinctoria grown in Schenk-Hildebrandt medium without growth regulators the biosynthesis of isoflavones, derivatives of genistein and daidzein, and flavones, derivatives of luteolin and apigenin, characteristic for the intact plant, was completely inhibited. The only compound synthesized in G. tinctoria hairy roots was isoliquiritigenin (2.3 g/100 g DW), a daidzein precursor absent in the intact plant. This compound was stored entirely within cells and it was not until abscisic acid was added (37.8 microM supplement on day 42) that approx. 80% of it was released into the experimental medium. The paper discusses the effect of abscisic acid on the growth of G. tinctoria hairy root cultures, the biosynthesis of isoliquiritigenin and the way it is stored. A prototype basket-bubble bioreactor was designed and built to upgrade the scale of the G. tinctoria hairy root cultures. With immobilized roots and a new aeration system, large amounts of biomass were obtained (FWmax 914.5 g l(-1)) which produced high contents of isoliquiritigenin (2.9 g/100 g DW). The abscisic acid-induced release of the metabolite from the tissue into the growth medium greatly facilitated subsequent extraction and purification of isoliquiritigenin.     

Untransformed root cultures of Nothapodytes foetida and production of camptothecin

Untransformed root cultures of Nothapodytes foetida were established from immature zygotic embryos on MS basal medium supplemented with different concentration of growth regulators. Alkaloid contents in untransformed root cultures showed that root elongation and growth regulators accompanied product synthesis. Basal medium supplemented with NAA and BA achieved maximum number of elongated roots. Maximum concentration of camptothecin (0.01% DW) and 9-methoxy camptothecin (0.0016% DW) were synthesised by untransformed root cultures incubated on MS medium supplemented with NAA (71.36 M) and BA (8.87 M). Culture medium containing NAA (71.36 M) and Kn (9.29 M) proliferated callus interspersed with roots which synthesised camptothecin (0.00017% DW) and 9-methoxy-camptothecin (0.000058% DW).     

Micropropagation and hairy root culture of <Emphasis Type="Italic">Solanum Laciniatum</Emphasis> Ait.

Summary An efficient system for in vitro micropropagation of Solanum laciniatum Ait. has been established. Shoot induction on leaf explants was most successful on Murashige and Skoog (MS) medium supplemented with 10 μM N⁶-benzyladenine (BA) and 1 μM α-naphthaleneacetic acid (NAA). BA (13 μM) was optimal for further shoot multiplication, and rooting of separated shoots was achieved on medium without plant growth regulators. At each subculture, 20–25 shoots were obtained on each explant, from which six to eight were suitable for separation and further rooting. Leaf explants grown in vitro were successfully infected by Agrobacterium rhizogenes ATCC 15834. The established hairy root culture was, on the basis of dry weight, more productive when grown on half-strength MS medium than on full-strength MS (3% sucrose) and full-strength MS (6% sucrose) medium. The amount of solasodine-containing glycoalkaloids in hairy roots as measured by a colorimetric method was 0.3–1% of dry weight, which is higher than in the shoot culture (0.5% of dry weight) and lower than in leaves of in vivo-grown plants (1.1–1.4% of dry weight). The amount of solasodine-containing glycoalkaloids in leaves of in vivo-grown plants of S. laciniatum was similar to the related species Solanum aviculare Forst. Both species are morphologically similar, therefore we effectively distinguished them by flow cytometry. The genome size of S. laciniatum was determined as 4.03 pg and the genome size of S. aviculare as 1.69 pg.     

Micropropagation of Guazuma crinita mart. by root and petiole culture

Summary Shoot organogenesis of Guazuma crinita Mart. from root and petiole explants was obtained via adventitious bud formation. Root segments and petiole explants excised from in vitro generated plantlets were cultured on woody plant medium (WPM) supplemented with [trans-6-(4-hydroxy-3-methylbut-2- enyl)aminopurine] (zeatin) or with [6-benzyladenine] (BA). After 45 d of culturing, clumps of green bulbous structures containing small adventitious buds (clusters) were generated in all explants cultured with 10 μM zeatin under a photon flux density of 65 μmol m⁻² s⁻¹. For subsequent shoot differentiation, clusters were transferred onto medium containing 1 μM zeatin. After 60 d of culturing, 30% of clusters generated from petiole explants developed into plants. The regenerated plantlets were successfully acclimatized and all survived and grew well. No morphological abnormalities were observed.     

In vitro culture of crown gall and hairy root tumors ofAtropa Belladonna: Differentiation and alkaloid production

Crown galls and hairy roots were induced inin vitro cultivated seedlings ofAtropa belladonna by differentAgrobacterium tumefaciens andA. rhizogenes strains. During furtherin vitro cultivation, tumors and hairy roots showed high differentiation ability which persisted for at least one year ofin vitro culture. Only root cultures, induced by Ri plasmid A4, synthesized detectable amounts of alkaloids.