Endogenous elicitor-like effects of alginate on physiological activities of plant cells

 The effects of alginate on the physiological activities of plant cells were studied. Addition of alginate oligomer (AO) to the suspension culture of Catharanthus roseus L. or Wasabia japonica cells promoted the production of antibiotic enzymes such as 5′-phosphodiesterase or chitinase respectively. Ajmalicine (a secondary metabolite) production by C. roseus CP3 cells was also promoted when AO was added to the suspension culture. On the basis of these results, we assumed that alginate is an elicitor-like substance. We therefore compared the effect of AO on C. roseus L. and W. japonica cells with those of chitosan oligomer (CO) and oligo-galacturonic acid (OGA), which are well known as an exogenous elicitor and endogenous elicitor respectively. The effects of various concentrations of AO, OGA, and CO on the physiological activities, membrane permeability and protoplast formation of C. roseus L. or W. japonica cells were investigated. AO and OGA showed similar physiological effects, which were quite different from those of CO. Since alginate appeared to have similar effects to galacturonic acid, we concluded that alginate acts as an endogenous elicitor. Both alginate and galacturonic acid are uronic acids, and we considered their structural similarity. The effects of esterification of the carboxylic groups of alginate by propylene oxide were also studied. The greater the degree of esterification, the less the secretion of 5′-phosphodiesterase. Hence we assumed that carboxylic groups have an important role in the initiation of the elicitation reaction in plant cells, as shown in the case of galacturonic acid. Received: 18 January 1999 / Received revision: 2 April 1999 / Accepted: 1 May 1999     

Preparation of mixed alginate elicitors with high activity for the efficient production of 5′-phosphodiesterase by Catharanthus roseus cells

When various autoclaved microbial cells suspensions (exogenous elicitors) were added to Catharanthus roseus cell cultures, its growth was inhibited but 5′-phosphodiesterase (PDase) production was stimulated. The greatest effect was with autoclaved Alteromonas macleodii: the dry cell concentration decreased from 13 to 10.9 mg/ml while PDase production increased from 0.022 to 0.235 U/ml. A combination of A. macleodii (as exogenous elicitor) and 0.1%(w/v) alginate oligomers (AO: acting as both endogenous elicitor and scavenger of active oxygen species) minimized the cell growth inhibition but enhanced PDase production (0.474 U/ml) about 20 times higher than the control (no addition). The method for the preparation of mixed alginate elicitors with high activities containing exogenous elicitor (autoclaved A. macleodii), endogenous elicitor (AO), and trans-4,5-dihydroxy-2-cyclopenten-1-one was developed. The mixed alginate elicitors significantly promoted PDase production (2.67 U/ml) by C. roseus, and the productivity was increased 120-fold compared to the control without cell growth inhibition.     

Elicitor-induced nitric oxide burst is essential for triggering catharanthine synthesis in Catharanthus roseus suspension cells

Elicitor prepared from the cell walls of Penicillium citrinum induced multiple responses in Catharanthus roseus suspension cells, including rapid generation of nitric oxide (NO), sequentially followed by enhancement of catharanthine production by C. roseus cells. Elicitor-induced catharanthine biosynthesis was blocked by NO-specific scavenger 2-4-carboxyphenyl-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide and nitric oxide synthase (NOS) inhibitor S,S-1,3-phenylene-bis(1,2-ethanediyl)-bis-isothiourea (PBITU). PBITU also strongly inhibited elicitor-induced NO generation by C. roseus suspension cells. The inhibiting effect of PBITU on elicitor-induced catharanthine production was reversed by external application of NO via the NO-donor sodium nitroprusside. The results strongly suggested that NO, generated by NOS or NOS-like enzymes in C. roseus suspension cells when treated with the fungal elicitor, was essential for triggering catharanthine synthesis.     

Improvement of indole alkaloid production in Catharanthus roseus cell cultures by osmotic shock

Catharanthine production in Catharanthus roseussuspension cell cultures was increased by about 4-fold to 28 mg l^–1, 23 mg l^–1and 24 mg l^–1by adding sodium alginate, mannitol or polyvinyl pyrrolidone, respectively. Sodium alginate and polyvinyl pyrrolidone also enhanced ajmalicine production to 28 mg l^–1and 31 mg l^–1, respectively. Up to 55–70% of the total alkaloids were released into the medium. These treatments could stimulate higher alkaloid production in C. roseuscell cultures than NaCl and KCl stresses. The possible mechanisms for these treatment effects are discussed.     

A novel process of inosine 5′-monophosphate production using overexpressed guanosine/inosine kinase

A novel process for producing inosine 5′-monophosphate (5′-IMP) has been demonstrated. The process consists of two sequential bioreactions; the first is a fermentation of inosine by a mutant of Corynebacterium ammoniagenes, and the second is a unique phosphorylating reaction of inosine by guanosine/inosine kinase (GIKase). GIKase was produced by an Escherichia coli recombinant strain, MC1000(pIK75), which overexpressed the enzyme up to 50% of the total cellular protein. The overproducing plasmid, pIK75, which was randomly screened out from deletion plasmids with various lengths of intermediate sequence between the E. coli trpL Shine-Dalgarno sequence, derived from the vector plasmid, and the start codon of the GIKase structural gene. In pIK75, the start ATG was placed 16 bp downstream of the trpL Shine-Dalgarno sequence under the control of the E. coli trp promoter. Fermentation of inosine and its phosphorylation were sequentially performed in a 5-l jar fermenter. At the end of inosine fermentation by C. ammoniagenes KY13761, culture broth of MC1000(pIK75) was mixed with that of KY13761 to start the phosphorylating reaction. Inosine in the reaction mixture was stoichiometrically phosphorylated, and 91 mM 5′-IMP accumulated in a 12-h reaction. This new biological process has advantages over traditional methods for producing 5′-IMP. Received: 7 April 1997 / Received last revision: 18 July 1997 / Accepted: 27 July 1997     

Abscisic acid-regulated Glb1 transient expression in cultured maize P3377 cells

In a study of the 5′-flanking sequence of the Zea mays L. (maize) Glb1 gene in vitro, serial promoter deletions were generated and linked with the β-glucuronidase (GUS) reporter gene. The promoter deletion-GUS fusions were introduced into the maize P3377 cell line by particle bombardment. GUS assays indicated that treatment of the maize cultured cells with abscisic acid (ABA) was required for Glb1-driven GUS transient expression, and that the –272-bp sequence of the Glb1 promoter was sufficient for ABA-regulated expression of GUS. The longest undeleted sequence used, –1391 GUS, showed relatively low expression which could be indicative of an upstream silencer element in the Glb1 promoter between –1391 and –805. Further studies show that the Glb1-driven GUS activity of bombarded maize P3377 cells increases with increasing ABA concentration (up to 100–300 μm). Site-directed mutagenesis of a putative ABA response element, Em1a, abolished GUS expression in P3377 cells. This observation indicated that the Em1a sequence in the Glb1 5′ regulatory region is responsible for the positive ABA regulation of gene expression. Received: 9 May 1997 / Revision received: 9 November 1997 / Accepted: 8 December 1997     

Efficient production of a functional mouse/human chimeric Fab′ against human urokinase-type plasminogen activator by Bacillus brevis

Expression/secretion vectors for the production of Fab′ and single-chain (sc) Fab′ by Bacillus brevis have been constructed. For the production of Fab′, the cDNAs encoding the L chain and Fd′ fragment (Fd with the hinge region) of a mouse-human chimeric Fab′ against human urokinase-type plasminogen activator were fused directly with the translation-start and signal-peptide-encoding regions of the mwp gene, the gene for one of the major cell-wall proteins of Bacillus brevis. The two fused genes were placed tandemly downstream from the promoter of the cell-wall protein gene operon (cwp) of B. brevis. For the production of scFab′, the two cDNAs were linked with a synthetic oligonucleotide encoding a flexible peptide linker of 17 or 24 amino acids, and fused with the translation start and signal-peptide-encoding regions of the mwp gene. Fab′ was efficiently produced by B. brevis, being accumulated at a level of 100 mg/l in the culture medium in a simple shake-flask culture, which is the highest level obtained so far for a gram-positive bacterium. On the other hand, the scFab′ remained at a level of a few milligrams per liter in the culture medium. The Fab′ produced by B. brevis showed comparable antigen-binding activity to that of the parental antibody. The L chain and Fd′ fragment, constituting the Fab′, had the correct N-terminal amino acid sequences. These results indicate that B. brevis is a very promising host for the production of native Ig fragments. Received: 25 April 1997 / Received revision: 3 June 1997 / Accepted: 29 June 1997     

Precursor limitations in methyl jasmonate-induced Catharanthus roseus cell cultures

Jasmonates enhance the expression of various genes involved in terpenoid indole alkaloid (TIA) biosynthesis in Catharanthus roseus. We applied precursor feeding to our C. roseus suspensions to determine how methyl jasmonate (MJ) alters the precursor availability for TIA biosynthesis. C. roseus suspensions were induced with MJ (100 μM) on day 6 and fed loganin (0.30 mM), tryptamine (0.15 mM), loganin plus tryptamine, or geraniol (0.1–1.0 mM) on day 7. While MJ increased ajmalicine production by 3-fold, induced cultures were still limited by terpenoid precursors. However, both induced and non-induced cultures became tryptamine-limited with excess loganin. Geraniol feeding also increased ajmalicine production in non-induced cultures. But MJ appeared to increase geraniol availability in induced cultures, due presumably to the increased expression of Dxs with MJ addition.     

Distribution of alginate oligomers in Catharanthus roseus and Wasabia japonica cells cultured in a medium containing alginate oligomers

Distribution of alginate oligomers (AO) which are endogenous elicitor-like substances, in cultured plant cells were investigated by using AO conjugated with monopotassium 7-amino-1,3-naphthalenedisulfonate (ANDS). When AO-ANDS was added at 0.5 g l^–1 to the Catharanthus roseus cell culture, it adhered to the cells as observed by fluorescence microscopy. Using protoplasts of C. roseus, AO-ANDS was found not only in the cell walls but also in the cell membrane and cytoplasm. When C. roseus was cultivated in a medium containing oligo-galacturonic acids, as an endogenous elicitor, this was also found in the cell wall, cell membrane and cytoplasm of C. roseus cells. Similar results were also obtained with Wasabia japonica cells.     

Alginate production by Azotobacter vinelandii DSM576 in batch fermentation

The kinetics of growth and alginate production from glucose in a nitrogen and phosphate-rich medium by Azotobacter vinelandii DSM576 were studied in a laboratory fermenter at pH 7 and 35°C. Batch fermentations were carried out both without control of dissolved oxygen concentration (DO) and at 1, 2, 5 and 10% DO. Although growth was faster at higher DO, maximum biomass concentration was lower. No alginate was produced at 10% DO. Alginate production was faster at 5 and 2% DO but higher alginate concentrations and yields were obtained without DO control. Alginate production was growth-associated at 5% DO, but significant amounts of alginate were produced after growth had stopped at lower DO values. In fermentations without DO control the molecular weight of the polymer reached a maximum (11–17.6 × 10⁴) when specific growth rate was between 0.02 and 0.04 h⁻¹ and residual concentration of ammoniacal nitrogen was between 0.01 and 0.02 g L⁻¹ and then sharply decreased. Received 15 August 1997/ Accepted in revised form 08 January 1998     

Sulfated extracellular polysaccharide production by the halophilic cyanobacterium Aphanocapsa halophytia immobilized on light-diffusing optical fibers

 The cyanobacterium, Aphanocapsa halo-phytia MN-11, was immobilized in calcium alginate gel and coated on light-diffusing optical fibers (LDOF) for sulfated extracellular polysaccharide production. Results indicated that sulfated extracellular polysaccharide production depends on the number of immobilized cells and the light intensity. In addition, the production rate reached 116.0 mg (mg dry cells)^-1 day^-1 when the cells that were immobilized on LDOF were incubated under a light intensity of 1380 cd sr m^-2 at a cell concentration of 1.0×10⁸ cells/cm³ gel. Cells immobilized on LDOF produced about ten times more sulfated extracellular polysaccharide than those immobilized in calcium alginate beads only (11.7 mg(mg dry cells)^-1day^-1). Received: 31 March 1995/Revised last revision 12 June 1995/Accepted 26 July 1995     

Observations of mitochondria and mitochondrial nuclei by double staining with rhodamine-123 and DAPI in synchronous cultures ofCatharanthus roseus

Mitochondria in cells ofCatharanthus roseus (L.) G. Don in synchronous cell division cultures were observed by double staining using fluorescence microscopy. The cells were stained with 4′-6-diamidino-2-phenylindole (DAPI) first and subsequently stained with rhodamine 123 (r-123). Immediately after staining with r-123, yellowishgreen, elongated and moving mitochondria were observed upon excitation at 485 nm. When the excitation filters were replaced by a UV filter (360 nm), 1 to 7 mitochondrial nucleoids were visible in each mitochondrion in the same field. Changes in the lengths of mitochondria during the cell cycle obtained from the observations under fluorescence microscopy by this staining method suggest the occurrence of multiplication of mitochondria concurrent with the cell cycle ofC. roseus.     

Agrobacterium-mediated transformation of the terpenoid indole alkaloid-producing plant species Tabernaemontana pandacaqui

Plants of the Apocynaceae family produce a wide range of terpenoid indole alkaloids (TIAs) which have important pharmaceutical applications. Studies of the molecular mechanisms controlling TIA biosynthesis may eventually provide possibilities to improve product yield by genetic modification of plants or cell cultures. However, these studies suffer from the lack of transformation/regeneration protocols for Apocynaceae plants. We chose to study the feasibility of Agrobacterium tumefaciens-mediated transformation of Tabernaemontana pandacaqui, because of the availability of an efficient regeneration procedure for this member of the Apocynaceae family. A procedure to produce transgenic T. pandacaqui plants was established, albeit with low efficiency. Transgenic expression was demonstrated of an intron-containing β-glucuronidase reporter gene and of a gene coding for the TIA biosynthetic enzyme strictosidine synthase from Catharanthus roseus, another Apocynaceae species. Received: 16 June 1997 / Revision received: 12 July 1997 / Accepted: 13 July 1997     

Isolation and functional analysis of the Catharanthus roseus deacetylvindoline-4-O-acetyltransferase gene promoter

Madagascar periwinkle (Catharanthus roseus) produces many therapeutically valuable terpenoid indole alkaloids (TIAs), such as vinblastine and vincristine derived from the monomers vindoline and catharanthine. Deacetylvindoline-4-O-acetyltransferase (DAT) is a key enzyme for the terminal step of vindoline biosynthesis. In this research, the DAT gene promoter was cloned, sequenced, and analyzed. An approximately 1,773 bp genomic DNA fragment of DAT promoter was obtained. Sequence analysis revealed that DAT promoter contained several potential regulatory elements which were involved in the regulation of gene expression. To investigate its function, the promoter fragments with 5′ deletions and gain-of-function deletions were fused to GUS reporter gene, and their expressions were analyzed by transient expression in C. roseus cell suspensions. The regulatory activity of DAT promoter was identified with fluorescence quantitative assays. Three TGACG motifs and one inverted motif (CGTCA) between −808 and −1,086 bp in the DAT promoter were found to be involved in methyljasmonate signal transduction pathway.     

Large-scale production of CMP-NeuAc and sialylated oligosaccharides through bacterial coupling

A large-scale production system of cytidine 5′-monophospho-N-acetylneuraminic acid (CMP-NeuAc) and sialyloligosaccharides was established by a whole-cell reaction through the combination of recombinant Escherichia coli strains and Corynebacterium ammoniagenes. For the production of CMP-NeuAc, two recombinant E. coli strains were generated that overexpressed the genes of CMP-NeuAc synthetase and CTP synthetase, respectively. C. ammoniagenes contributed to the formation of UTP from orotic acid. CMP-NeuAc was accumulated at 27 mM (17 g/l) after a 27-h reaction starting with orotic acid and N-acetylneuraminic acid. When E. coli cells that overexpressed the α-(2 → 3)-sialyltransferase gene of Neisseria gonorrhoeae were put into the CMP-NeuAc production system, 3′-sialyllactose was accumulated at 52 mM (33 g/l) after an 11-h reaction starting with orotic acid, N-acetylneuraminic acid, and lactose. Almost no oligosaccharide byproducts other than 3′-sialyllactose were observed after the reaction. The production of 3′-sialyllactose at a 5-l jar fermenter scale was almost the same as that at a beaker scale, which indicated the high potential of the 3′-sialyllactose production on an industrial scale. Received: 9 July 1999 / Received revision: 17 September 1999 / Accepted: 10 October 1999     

Production of phosphohydrolases by Nicotiana tabacum 1507 cell suspension culture

The time course of growth, biosynthesis and secretion of different phosphohydrolytic activities by Nicotiana tabacum 1507 cell suspension culture were investigated. It was established that the cell culture under study biosynthesised large amounts of phosphohydrolytic activities during the linear phase of growth for a relatively short period (between the 2nd and 5th days of cultivation). The highest enzyme activity was determined with bis-pNPP which is non-specific substrate for phosphodiesterases and for some nucleases (116.10³ U/L at pH 5.7 and 51.10³ U/L at pH 8.0). The different phosphohydrolytic activities were distingnished using specific substrates at pH 5.7 (20.10³ U/L – 5′-phosphodiesterases, 18,8.10³ U/L – 3′-phosphodiesterases and 15,5.10³ U/L – phosphomonoesterases) and at pH 8.0 (10,2.10³ U/L – 5′-phosphodiesterases, 9,5.10³ U/L – 3′-phosphodiesterases and 6,4.10³ U/L – phosphomonoesterases). This revised version was published online in June 2006 with corrections to the Cover Date.     

5′-Phosphodiesterase Formation by Cultured Plant Cells

5′-Phosphodiesterase (5′-PDase) which degrades RNA to nucleoside-5′-monophosphates was investigated in various kinds of plant calli, and the calli of Vinca rosea and Phytolacca americana were found to have the high activity. The liquid culture conditions of the cells of V. rosea were examined. Three mg of kinetin and 0.5 mg of 2,4-dichlorophenoxyacetic acid per liter in the Murashige and Skoog medium were optimal for the growth and the 5′-PDase formation. Under the optimal conditions, time courses of the cell growth and the enzyme formation were measured.

The 5′-PDase of the cultured cells of V. rosea in suspension showed the maximal activity at pH 8.0 and 60°C. A comparison of 5′-PDase of the cultured cells and of the mother plant of V. rosea was carried out and it was found that the cultured cells had more than 30 times as much 5′-PDase activity as the mother plant on dry cell weight basis.     

New carotenoids from the thermophilic green sulfur bacterium Chlorobium tepidum: 1′,2′-dihydro-γ-carotene, 1′,2′-dihydrochlorobactene, and OH-chlorobactene glucoside ester, and the carotenoid composition of different strains

The complete carotenoid composition of the thermophilic green sulfur bacterium Chlorobium tepidum strain TNO was determined by spectroscopic methods. Major carotenoids were four kinds of carotenes: γ-carotene, chlorobactene, and their 1′,2′-dihydro derivatives (1′,2′-dihydro-γ-carotene and 1′,2′-dihydrochlorobactene). In lesser amounts, hydroxyl γ-carotene, hydroxyl chlorobactene, and their glucoside fatty acid esters were found. The only esterified fatty acid present was laurate, and OH-chlorobactene glucoside laurate is a novel carotenoid. In other strains of C. tepidum, the same carotenoids were found, but the composition varied from strain to strain. The overall pigment composition in cells of strain TNO was 4 mol carotenoids and 40 mol bacteriochlorophyll c per mol bacteriochlorophyll a. The effects of nicotine on carotenoid biosynthesis in C. tepidum differed from those in the thermophilic green nonsulfur bacterium Chloroflexus aurantiacus. Received: 3 February 1997 / Accepted: 6 June 1997