Pinoresinol and matairesinol accumulation in a Forsythia × intermedia cell suspension culture

A newly established Forsythia × intermedia cell suspension culture was shown to accumulate (+)- and (–)-pinoresinol as well as matairesinol. The influence of the sucrose content of the culture medium and of the cultivation time on pinoresinol and matairesinol accumulation was evaluated. The highest pinoresinol yield was achieved from cells grown in medium containing 6% sucrose for 12 ± 2 days with levels of 0.6–0.8 mg g^–1 dry weight and an average enantiomeric composition of 75 ± 5% (+)-pinoresinol. The highest matairesinol amount was reached in the same medium at the 14th ± 2 culture day with levels of 1.0–2.7 mg g^–1 dry weight. To our knowledge, this is the first report on pinoresinol accumulation in Forsythia × intermedia plants or cell suspension cultures.     

Effect of picloram and methyl jasmonate on growth and taxane accumulation in callus culture of Taxus × media var. Hatfieldii

We have analysed the effect of some culture conditions and media components on callus growth rate and production of taxanes in callus of Taxus × media var. Hatfieldii. For callus induction and maintenance a Gamborg B5 medium and a White - Rangaswamy medium (WR) with different modifications were used. On an improved WR medium (containing 10 μM picloram) the callus growth factor increased up to 5.8 fold (fresh weight). Picloram only enhanced the growth of callus, but not taxane production. On WR medium with (100 μM) methyl jasmonate the paclitaxel content increased from 2.37 μg g-1 to 90 μg g-1 and cephalomannine from 5.14 μg g-1 to 29.14 μg g-1 (dry weight), whereas growth of the cultures ceased. The presence of paclitaxel and cephalomannine was established by high performance liquid chromatography. This revised version was published online in June 2006 with corrections to the Cover Date.     

Rhizogenesis in Forsythia×intermedia and Syringa vulgaris; application of a simple internode experimental system

 Differences in rhizogenesis between easy-to-root Forsythia×intermedia Zab. cv. Lynwood and difficult-to-root Syringa vulgaris L. cv. Madame Lemoine were measured in an experimental system based upon internodal stem sections excised from axillary shoot cultures. Root induction in Syringa was distinctly polar, responding best to distal application of indole-3-butyric acid (IBA), whereas Forsythia was equally responsive to IBA applied at either end. Root initiation in Syringa declined rapidly from 73% to 32% over 48 h when the application of a 24-h pulse of IBA was delayed following excision of the internode; in Forsythia a smaller decline (93–70%) occurred over 144 h. Forsythia internodes were the more responsive, and developed roots after distal or proximal application of 3 μM IBA, whereas Syringa required the distal application of 30 μM IBA. Received: 22 March 2000 / Revision received: 5 June 2000 / Accepted: 5 June 2000     

Regeneration and Agrobacterium-mediated transformation of Forsythia×intermedia "Spring Glory"

Internode explants ofin vitro plants ofForsythia x intermedia Spring Glory were transformed with thegus andnpt II genes after inoculation with theA. tumefaciens strain EHA 101 harbouring the plasmid pFAJ3000. Shoot organogenesis took place from callused edges of explants. The first transformed buds were detected 4 to 6 weeks after transfer on regeneration medium, containing 25 mg/l kanamycin as selective agent. An average of 1% of explants regenerated transgenic shoots.-glucuronidase assays and culture on kanamycin-containing medium provided the first indication of integration and expression of introduced genes in transformants. Southern blot and polymerase chain reaction amplification analyses gave molecular confirmation of genetic transformation. Transgenic plants were acclimatized in the greenhouse. Enzymatic assays on several organs of mature plants still showed -glucuronidase activity, thus confirming stable integration of T-DNA in the plant genome.Abbreviations BAP 6-benzyl-aminopurine - CaMV Cauliflower Mosaic Virus - GUS andgus -glucuronidase - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Skoog - NOS nopaline synthase - NPT II andnpt II neomycin phosphotransferase II - PCR polymerase chain reaction - SDS sodium dodecyl sulphate - SSC sodium chloride-sodium citrate - X-Gluc 5-bromo-4-cbloro-3-indolyl glucuronide     

Improved β-thujaplicin production in Cupressus lusitanica suspension cultures by fungal elicitor and methyl jasmonate

Production of a novel antimicrobial tropolone, beta-thujaplicin, in Cupressus lusitanica suspension cultures was studied by using a variety of chemicals and fungal elicitors. Sodium alginate, chitin, and methyl jasmonate resulted in 2-, 2.5-, and 3-fold higher beta-thujaplicin production, respectively, than in the control. Significantly improved beta-thujaplicin production (187 mg l(-1)) was obtained using a high cell density (180-200 g l(-1)) and fungal elicitor treatment [10 mg (g fresh cells)(-1)] in a production medium with a high ferrous ion concentration (0.3 mM). This improved volumetric productivity was 3- to 4-fold higher than obtained under standard conditions. A synergistic effect of fungal elicitor and ferrous ion on beta-thujaplicin production was also suggested by our study. Plant cell culture technology is a promising alternative for producing a large variety of secondary metabolites that are widely used as food additives, pharmaceuticals, and dairy products (Verpoorte et al. 1999). Thus, beta-thujaplicin production by plant cell cultures was developed with the goal of commercial application (Berlin and Witte 1988; Itose and Sakai 1997; Ono et al. 1998). However, the production of beta-thujaplicin by plant cell cultures is still not competitive for use in industrial applications. In this study, we assessed the effects of methyl jasmonate, alginate, chitin, and fungal elicitor on beta-thujaplicin production; we obtained a significantly elevated beta-thujaplicin production by using an improved culture strategy.     

Increased podophyllotoxin production in Podophyllum hexandrum cell suspension cultures after feeding coniferyl alcohol as a β-cyclodextrin complex

Summary Cell suspension cultures, derived from roots of Podophyllum hexandrum Royle (Berberidaceae), accumulate podophyllotoxin. In this study the use of -cyclodextrin in feeding the poorly water-soluble precursor coniferyl alcohol to these cultures is described. By complexation with -cyclodextrin, a solution of 3 mM coniferyl alcohol could be fed, resulting in enhanced podophyllotoxin accumulation. The same concentration of non-complexed suspended coniferyl alcohol had only little effect on the podophyllotoxin accumulation. -Cyclodextrin itself was proven to be non-toxic for the cells. It did not influence the podophyllotoxin content and it was not metabolized or used as a carbon source by the cells. For comparison, coniferin, the water-soluble -D-glucoside of coniferyl alcohol, was also fed in the same concentration. The effect of coniferin on the podophyllotoxin accumulation was stronger than that of coniferyl alcohol complexed with -cyclodextrin, but coniferin is not commercially available.Abbreviations -CD -cyclodextrin - NAA naphthaleneacetic acid     

The differential actions of cortisol on the accumulation of α-lactalbumin and casein in midpregnant mouse mammary gland in culture

The dose-response relationship between cortisol and the accumulation of the two milk proteins, casein and α-lactalbumin, was studied in organ culture of mammary gland from midpregnant mice. The accumulation of casein was low in culture with insulin but was enhanced by the further addition of prolactin. Further increases in casein were effected by the addition of cortisol in increasing concentrations up to 3 × 10^?6 M, which was optimal for the accumulation of this protein. The content of α-lactalbumin in explants was similarly low in culture with insulin alone, but, in contrast, was increased to a maximal level by the addition of insulin and prolactin. The addition of cortisol up to 3 × 10^?8 M with insulin and prolactin did not further increase the level of α-lactalbumin; in fact, at concentrations above 3 × 10^?7 M the steroid caused progressive inhibition of the accumulation of this protein in cultured explants. Studies of the appearance of casein and α-lactalbumin in incubation medium during organ culture revealed the presence of substantial amounts of these milk proteins. During the first 2 days of culture with insulin, prolactin and 3 × 10^?6 M cortisol, the amount of α-lactalbumin in culture medium was almost equal to the level found in tissue, whereas in the presence of 3 × 10^?8 M cortisol, or in the absence of exogenous steroid, over 70% of total α-lactalbumin was retained in tissue. The observed difference in the amount of α-lactalbumin in culture medium can, however, only partially account for the inhibitory effect of high doses of cortisol on the accumulation of α-lactalbumin in cultured mammary explants. In contrast to α-lactalbumin, the relative amount of casein in culture medium containing insulin and prolactin was smaller—19% of total casein synthesized—and was further reduced to 16% and 11% of the total in the presence of 3 × 10^?8 M and 3 × 10^?6 M cortisol, respectively. The above results indicate that cortisol exerts dose-dependent differential actions on the accumulation of casein and α-lactalbumin in mouse mammary epithelium in vitro.     

Does application of methyl jasmonate to birch mimic herbivory and attract insectivorous birds in nature?

Earlier studies have suggested that insectivorous birds, similar to invertebrate predators and parasitoids, may be guided by herbivore-induced plant volatiles (HIPVs) to damaged, herbivore-rich trees. Recent studies have also shown that birds use olfaction more than previously thought, underlying the potential for HIPVs to be sensed by insectivorous birds and utilised during foraging for prey. The HIPV production in plants is mediated, at least partly, by the jasmonic acid signalling pathway, and similar HIPVs to those induced by herbivores can often be induced by exposing plants to methyl jasmonate (MeJa). We studied the effects of MeJa on volatile emission and bird attraction using mature mountain birches (Betula pubescens ssp. czerepanovii) under natural conditions in northern Finland. Experimental trees were assigned to four treatment groups: herbivore-damaged [autumnal moth (Epirrita autumnata)], higher dose of MeJa (30 mM), lower dose of MeJa (15 mM) and control. All trees had three branches covered with mesh bags, but there were larvae inside the bags only of the herbivore-damage treatment. Bird predation rate was monitored with artificial plasticine larvae which were checked daily for peck marks. Birds most often pecked the larvae in the herbivore-damaged trees, but the attractiveness of MeJa-treated trees did not differ from the control. High within-treatment variation in systemic HIPV emissions probably masked MeJa treatment effects. The bird predation rate was high in birches that emitted large amounts of α-pinene. Thus, α-pinene may be one cue used by birds to find herbivore-rich birches.     

Enhancement of α-tocopherol content through transgenic and cell suspension culture systems in tobacco

The tocopherols are amphipathic antioxidant synthesized by photosynthetic organisms, which forms the essential component in the human diet. To increase the α-tocopherol content in tobacco, two approaches have been attempted in this study: (1) transgenic approach, by constitutive overexpression of the genes encoding Arabidopsis homogentisate phytyltransferase (HPT) and tocopherol cyclase (TC) through Agrobacterium-mediated genetic transformation; (2) non-transgenic approach, by supplementation of intermediates/precursors of vitamin E biosynthesis like tyrosine, p-hydroxyphenyl pyruvic acid, homogentisic acid (HGA) and phytol in different concentrations and combinations using cell suspension culture system. Molecular analyses by PCR, RT-PCR and Southern hybridization were carried out to confirm the HPT and TC expressing transgenic tobacco lines. The α-tocopherol content in transgenic plants expressing HPT and TC increase by 5.5 and 4.1, respectively, over the wild type. These results indicate that, HPT and TC activities are important in tobacco plants for enhancing the vitamin E content. In the second approach, the supplementation of precursor in cell suspension cultures, i.e., combination of 150 μM HGA + 100 μM phytol, showed the maximum enhancement of α-tocopherol, i.e., 36-fold. These findings clearly imply that enhancement of α-tocopherol levels in tobacco system is possible, if we could modulate the vitamin E metabolic pathway. This is a very useful finding for the large-scale production of natural Vitamin E. Among the two systems tested, cell suspension culture-based system is ideal over the transgenic technology due to its efficiency and no biosafety concerns.     

Influence of alterations in culture condition and changes in perfusion parameters on the retention performance of a 20 μm spinfilter during a perfusion cultivation of a recombinant CHO cell line in pilot scale

Since 1969 much attention has been devoted to the useof spinfilter systems for retention of mammalian cellsin continuous perfusion cultivations. Previousinvestigations dealt with hydrodynamic conditions,fouling processes and upscaling. But hydrodynamicconditions and fouling processes seem to have asecondary importance in spinfilter performance duringauthentic perfusion cultivations. Obviously,alterations in culture condition are more relevantespecially during long-term processes. Therefore, ourpratical approach focussed on the performance qualityof a commercially available 20 m spinfilterduring a perfusion cultivation of a recombinant CHOcell line in pilot scale regarding the followingissues: 1) retention of viable cells in thebioreactor; 2) removal of dead cells and cell debrisfrom the bioreactor; 3) alterations in culturecondition; and 4) changes in perfusion mode.Furthermore, we tested the performance of 20 mspinfilters in 2 and 100 l pilot scale using solidmodel particles instead of cells. Our investigationsshowed that retention of viable cells in pilot scalewas independent of spinfilter rotation velocity andperfusion rate; the retention increased from 75 to 95%corresponding to operation time, enlarging celldiameter and enhanced formation of aggregates in theculture during the perfusion cultivation. By means ofthe Cell Counter and Analyzer System (CASY) anoperation cut off of 13 m was determined forthis spinfilter. Using solid model particles in 2 lscale, optimal retention was achieved at a tip speedof 0.43 m s^-1 (141 rpm) – furtherenhancement of spinfilter rotation velocity up to0.56 m s^-1 (185 rpm) decreased the retentionrapidly. In pilot scale best retention performance wasobtained with tip speeds of 0.37 m s^-1(35 rpm) and 1.26 m s^-1 (120 rpm). Hence,significant retention in pilot scale could already beachieved with low agitation. Therefore, the additionof shear force protectives could be avoided so thatthe purification of the target protein from thesupernatant would be facilitated.     

Behaviour in culture of isolated protoplasts from “Paul's scarlet” rose suspension culture cells

Summary Protoplasts were enzymatically isolated from Paul's scarlet rose suspension culture cells. They were cultured in medium similar to that used to culture the cells from which they were isolated with the addition of sucrose as an osmotic stabiliser. They were studied by light and electron microscopy and their changes in size and number per culture were recorded. Expansion was greater when the protoplasts were cultured in medium plus 12% sucrose than with 24% sucrose. Budding was observed. In medium plus 12% sucrose about 45% of the protoplasts divided but in medium plus 24% sucrose far fewer divided. Cytokinesis was abnormal: the phragmoplast disappeared soon after cytokinesis began and the cell plate became a groove and then a fibril-lined or filled tongue which progressed across the vacuole, unconnected by strands to other parts of the protoplast. The wall regenerated after several days culture in medium plus 12% sucrose fluoresced with calcofluor. The wall regenerated in medium with 24% sucrose fluoresced usually only after several weeks culture. Cytokinesis hastened formation of a wall fluorescing with calcofluor. In the electron microscope the wall was seen to contain fibrils and non-fibrillar material. The latter was the minor component in medium plus 12% sucrose but was usually the major component in medium plus 24% sucrose. The growth in plasmolysing and nonplasmolysing medium of the cells from which protoplasts are isolated was also studied.It appears that loss of the wall alters the potential of protoplasts to expand and possibly also to regenerate a wall and to divide. Wall regeneration is initially linked with expansion and cytokinesis. Osmotic pressure of the external medium is also an important factor.This work formed part of a thesis by one of us (R.S.P.) approved for the degree of Ph. D. in the University of Nottingham. The work was supported by the Agricultural Research Council.     

Cell suspension culture of Rhizoma zedoariae in a two-stage perfusion bioreactor system for β-elemene production

We presented a two-stage combined bioreactor system consisting of a stir-tank and an airlift column, and challenged with Rhizoma zedoariae cell suspensions for β-elemene production. Two-stage culture was initiated when the cell concentration in both vessels was maintained at an appropriate density. The cells were proliferated in stirred-tank with the maximal growth rate of 0.17 d⁻¹ to present enough cells for β-elemene synthesis. In the airlift column, continuous cell separation from culture medium was achieved by using a cell retention device based on centrifugal and gravity settling when the system was performed in perfusion mode. The results indicated that additives can efficiently promote the accumulation of β-elemene in R. zedoariae cells. In addition, the β-elemene content showed higher levels in cell lines of overexpressing 3-hydroxy-3-methylglutaryl coenzyme-A reductase, Farnesyldi phosphate synthase, and ST02C genes.

     

Benzothiadiazole enhances the elicitation of rosmarinic acid production in a suspension culture of Agastache rugosa O. Kuntze

Callus and suspension cultures were established from the leaves of Agastache rugosa. The suspension cell growth was maximum at 15 days after inoculation. The cellular content of rosmarinic acid increased slowly and reached maximum (0.42 mg g^–1 dry wt) during the stationary phase of culture, after 18 days of inoculation. The addition of yeast extract preparation (MW <10000) at 50 g ml^–1 elevated the rosmarinic acid content up to 5.7-fold of that found in non-elicited suspension cells. The elicitation of yeast extract preparation was further 2-fold enhanced by the presence of benzothiadiazole, a synthetic activator of plant systemic acquired resistance, as compared to yeast extract alone. These results showed that benzothiadiazole can be used as a tool for enhancing secondary metabolite accumulation in cell cultures.     

Algae extracts and methyl jasmonate anti-cancer activities in prostate cancer: choreographers of ‘the dance macabre’

Background

GSAO (4-(N-(S-glutathionylacetyl)amino) phenylarsonous acid) and PENAO (4-(N-(S-penicillaminylacetyl)amino) phenylarsonous acid) are tumour metabolism inhibitors that target adenine nucleotide translocase (ANT) of the inner-mitochondrial membrane. Both compounds are currently being trialled in patients with solid tumours. The trivalent arsenical moiety of GSAO and PENAO reacts with two matrix facing cysteine residues of ANT, inactivating the transporter. This leads to proliferation arrest and death of tumour and tumour-supporting cells.

Results

The two reactive ANT cysteine residues have been identified in this study by expressing cysteine mutants of human ANT1 in Saccharomyces cerevisiae and measuring interaction with the arsenical moiety of GSAO and PENAO. The arsenic atom of both compounds cross-links cysteine residues 57 and 257 of human ANT1.

Conclusions

The sulphur atoms of these two cysteines are 20 Å apart in the crystal structures of ANT and the optimal spacing of cysteine thiolates for reaction with As (III) is 3-4 Å. This implies that a significant conformational change in ANT is required for the organoarsenicals to react with cysteines 57 and 257. This conformational change may relate to the selectivity of the compounds for proliferating cells.     

Effect of nutrients on the accumulation of glutamyl endopeptidase in the culture liquid ofBacillus intermedius 3–19

The effect of nutrients and growth conditions on the accumulation of glutamyl endopeptidase in the culture liquid ofBacillus intermedius 3–19 was studied. Glucose and other readily metabolizable carbon sources were found to suppress the production of the enzyme, whereas inorganic phosphate and ammonium cations enhanced it. Protein substrates, such as casein, gelatin, and hemoglobin, did not affect enzyme production. Some bivalent cations (Ca²⁺, Mg²⁺, Co²⁺) increased the production of glutamyl endopeptidase, but others (Zn²⁺, Fe²⁺, Cu²⁺) acted in the opposite way. The rate of enzyme accumulation in the culture liquid increased as the growth rate of the bacterium decreased, so that the maximum enzyme activity was observed in the stationary growth phase. Based on the results of this investigation, an optimal medium for the maximum production of glutamyl endopeptidase byB. intermedius 3–19 was elaborated.     

Plant regeneration and transient GUS expression in a range of lavandin (Lavandula × intermedia Emeric ex Loiseleur) cultivars

Five cultivars of lavandin were compared for their ability to regenerate plantlets in vitro and for their susceptibility to genetic transformation. Both processes were shown to be strongly cultivar-dependent. For regeneration, best results were obtained with cultivar ‘37–70’ which gave an average of 7 shoots from one initial explant after 4 months culture in vitro. The other cultivars produced between 0.5 and 3.5 shoots per explant. These differences were mostly due to the variable efficiency of the shoot elongation and rooting steps. An Agrobacterium-mediated transformation system using the β-glucuronidase and neomycin phosphotransferase II genes was established. The β-glucuronidase expression was analysed for both leaf explants six days after inoculation and kanamycin-resistant calluses obtained after a six-week culture on a selective medium. For each cultivar, kanamycin-resistant calluses showing a β-glucuronidase activity were obtained. The transformation efficiency ranged from 3% for cultivar ‘Certitude’ to 89% for cv. ‘41–70’ and ‘B–110’. Some kanamycin-resistant calluses were organogenic. This revised version was published online in June 2006 with corrections to the Cover Date.