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.     

Ethanol production from deproteinized whey byβ-galactosidase coimmobilized cells ofSaccharomyces cerevisiae

Summary The performance of -galactosidase coimmobilized cells ofSaccharomyces cerevisiae was evaluated during shake flask fermentation of deproteinized cheese whey lactose to ethanol. The performance of the coimmobilized enzyme treatment was compared to that of a treatment using acid prehydrolyzed whey lactose (a readily available substrate). Enzyme coimmobilization resulted in a slower rate and a lower extent of substrate utilization, thus giving a lower maximum ethanol concentration (13.5 versus 16.7 g/l). It did result, however, in a better ethanol yield (95% vs. 89% theoretical). It appears that, compared to acid prehydrolysis of whey lactose, through -galactosidase coimmobilization we could succeed in obtaining substantial process simplifications, thus saving in equipment and operating cost, while gaining in ethanol yield at the cost of some reasonable loss in the rate and the extent of lactose utilization.     

Inulinase (β-fructofuranosidase) production by Kluyeromyces marxianus in batch culture

Summary Production of inulinase in batch fermentation using various carbon sources with Kluyermoyces marxianus was examined. Inulinase synthesis in the culture proceeded parallel to cell growth. Glucose, fructose and sucrose were inferior carbon sources for inulinase broduction. Highest production (212 U/mL) was achieved on inulin based media.     

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.

     

Galacto-oligosaccharide production byβ-galactosidase in hydrophobic organic media

Summary Production of galacto-oligosaccharide (GO), including trisaccharide and tetrasaccharide, was performed using a -galactosidase in water-hydrophobic solvent mixtures. A maximum GO concentration of 45% (w/w) was attained in a 95% cyclohexane/5% water mixture from a 55% (w/w) of lactose at 60°C and pH 6.0, while a maximum of 38% GO in aqueous media. GO production decreased with an increase in surfactant concentration. The optimum water content for GO production showed a broad range from 2.5 to 10% (v/v). Solvent properties, such as log P and the dipole moment, had no relation to GO production.     

Increased production of cloned β-galactosidase in two-stage culture of Bacillus amyloliquefaciens

Bacillus amyloliquefaciens harboring recombinant plasmid pHG5, which encodes B. stearothermophilus β-galactosidase, was cultured in a jar fermentor. By feeding lactose a considerable concentration of the enzyme was produced, but the cells stopped growing at an OD₆₆₀ of about 30. On the other hand, the microorganism grew to a very high cell concentration with an OD₆₆₀ of around 110 with glucose as a carbon source, but the enzyme specific activity was a half of the maximum value with lactose. Based on these facts, B. amyloliquefaciens was first grown using glucose, and the carbon source was then switched to lactose to induce β-galactosidase production. By this two-step culture method, both good cell growth and high enzyme productivity were obtained.     

Improvement of intracellular β-galactosidase production in fed-batch culture of Kluyveromyces fragilis

Four fed-batch control strategies were evaluated to improve the specific lactase activity of Kluyveromyces fragilis. Control strategies tested included DO-stat control, exponential feeding, exponential feeding with manual feedback control and corrected feed-forward control. Each was implemented with standard sensors (i.e., temperature, dissolved oxygen and pH sensors) commonly installed in fermenters. The highest specific activity was obtained using the corrected feed-forward control strategy, a strategy incorporating a novel method for on-line estimation of specific growth rate. The control strategy was able to operate effectively to a final cell density of 69 g dry wt l^–1 with a specific lactase activity of 2 U mg^–1 cell dry wt.     

Continuous production of β-galactosidase in repeated batch culture of Penicillium multicolor with a membrane bioreactor

In crossflow filtration (CFF) of a culture broth of Penicillium multicolor, several types of membranes were tested with respect to permeate flux and the permeability of β-galactosidase, an extracellular enzyme. Membranes with surface pore sizes of 0.5 and 0.08 μm were selected because of the high flux and high β-galactosidase permeability. They were combined with a 3 × 10⁻² m³ fermentor as a system of repeated batch culture with crossflow filtration. With this system, β-galactosidase was continuously produced for 6 d and its productivity was about 3 times higher than that in fed-batch culture.     

β-Cyclodextrins enhance artemisinin production in Artemisia annua suspension cell cultures

Artemisinin is a sesquiterpene antimalarial compound produced, though at low levels (0.1–1% dry weight), in Artemisia annua in which it accumulates in the glandular trichomes of the plant. Due to its antimalarial properties and short supply, efforts are being made to improve our understanding of artemisinin biosynthesis and its production. Native β-cyclodextrins, as well as the chemically modified heptakis(2,6-di-O-methyl)-β-cyclodextrin (DIMEB) and 2-hydroxypropyl-β-cyclodextrins, were added to the culture medium of A. annua suspension cultures, and their effects on artemisinin production were analysed. The effects of a joint cyclodextrin and methyl jasmonate treatment were also investigated. Fifty millimolar DIMEB, as well as a combination of 50 mM DIMEB and 100 μM methyl jasmonate, was highly effective in increasing the artemisinin levels in the culture medium. The observed artemisinin level (27 μmol g⁻¹ dry weight) was about 300-fold higher than that observed in untreated suspensions. The influence of β-cyclodextrins and methyl jasmonate on the expression of artemisinin biosynthetic genes was also investigated.     

Growth and interferon-γ production in batch culture of CHO cells

The relationship between growth and interferon- (IFN-) production in the recombinant cell line CHO 320 was studied by varying the foetal calf serum (FCS) concentration. The specific growth rate varied with the initial FCS concentration in a manner which could be well fitted by the Monod model. TheK _s and _max values were found to be 0.771% (v/v) serum and 0.031 h^–1 respectively. The average specific IFN- production rates during the exponential phase increased with increasing FCS concentration. A good correlation between specific production rate and specific growth rate was found in all phases of the culture except the lag phase and it was clearly demonstrated that IFN- production was growth associated. Specific glucose and glutamine utilisation rates were inversely related to specific growth rates.     

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.     

TGF-β1 stimulates movement of renal proximal tubular epithelial cells in a three-dimensional cell culture via an autocrine TGF-β2 production

TGF-βs are multifunctional cytokines, but their roles in human renal homeostasis are not fully understood. This study investigated the role of TGF-β1 in the movement of human renal proximal tubular epithelial cells (PTECs) in a three-dimensional (3D) model. HKC-8 cells, a human PTEC line, were grown in a 3D collagen culture system. Cell movement was observed under a microscope. The gene expression was examined using PCR Arrays or qRT-PCR, and protein levels by Western blot. Here, we showed that the tight junction structure formed between adjacent cells of a HKC-8 cell colony in 3D cultures, and TGF-β1 stimulated their movement, evidenced by the appearance of fingerlike pseudopodia in the leader cells at the edge of the colonies. The cell movement of these human PTECs was correlated with up-regulation of both MMP2 and MMP9 and down-regulation or inactivation of PLAUR and PTK2B. Analysis of TGF-β signaling targets confirmed autocrine production of TGF-β2 and its cleaving enzyme furin as well as SNAI1 by TGF-β1stimulation. Knockdown of TGF-β2 expression disrupted TGF-β1-stimulated PTEC invasiveness, which was correlated with the down-regulation of MMP2 and MMP9. In conclusion, the activation of TGF-β receptor autocrine signaling by up-regulated TGF-β2 may play a pivotal role in TGF-β1-induced human PTEC movement, which could be mediated at least by both MMP2 and MMP9.     

Molecular cloning and characterization of a recombinant Bombyx mori tyramine-β-hydroxylase in a silkworm cell line using a baculovirus expression vector system

Octopamine (OA) and tyramine (TA) are biogenic amines that act as neurotransmitters, neurohormones, and neuromodulators in the invertebrate nervous system. Tyramine-β-hydroxylase (TβH) catalyzes the biosynthesis of OA from TA. In this study, cDNA encoding Bombyx mori TβH (BmTβH) was cloned from the brain of the silkworm B. mori. The BmTβH mRNA comprised 2204 nucleotide residues and contained an open reading frame encoding 592 amino acids. The deduced amino acid sequence shared homology to several proteins belonging to the insect TβH family. Functional expression of the cloned cDNA was obtained using a B. mori baculovirus expression vector system. Western blot analysis revealed an immunoreactive band with a molecular mass of ~ 67.4 kDa. Reverse-phase high-performance liquid chromatography (HPLC) was used to identify the products formed during incubation of the enzyme reaction mixture. The optimum pH and temperature for the conversion of TA to OA were 7.5 and 25 °C, respectively. During incubation, the reaction was linear for the first 30 min at 25 °C and pH 7.5. Inhibitory experiments carried out with various concentrations of an inhibitor showed that this method can be used for screening of BmTβH inhibitors.     

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.     

Beneficial effect of 30Kc6 gene expression on production of recombinant interferon-β in serum-free suspension culture of CHO cells

The Bombyx mori 30Kc gene is known to have anti-apoptotic activity and can enhance the cell growth and expression of recombinant proteins in anchorage-dependent CHO cell cultures. In this study, an interferon-β (IFN-β)-producing CHO cell line, which expresses the recombinant 30Kc6 gene, was constructed to investigate the effect of 30Kc6 expression on the production of IFN-β in serum-free suspension culture. The 30Kc6 expressing cell line showed lower apoptotic activity and prolonged cell viability under apoptotic conditions induced by the addition of sodium butyrate, staurosporine, or the removal of serum. The 30Kc6 expressing cell line also suppressed the loss of mitochondrial membrane potential induced under these conditions. It was observed that viability, and production of IFN-β were also enhanced by 30Kc6 expression in serum-free suspension cultures. These results indicate that the 30Kc6 gene can positively affect the viability and production of recombinant therapeutic proteins in serum-free suspension cultures of CHO cell lines.     

Generation of insulin-producing β-like cells from human iPS cells in a defined and completely xeno-free culture system

Human induced pluripotent stem （hiPS） cells are considered a potential source for the generation of insulin-producing pancreatic β-ceUs because of their differentiation capacity. In this study, we have developed a five-step xeno-free culture system to efficiently dif- ferentiate hiPS cells into insulin-producing cells in vitro. We found that a high NOGGIN concentration is crucial for specifically inducing the differentiation first into pancreatic and duodenal homeobox-1 （PDX1）-positive pancreatic progenitors and then into neurogenin 3 （NGN3）-expressing pancreatic endocrine progenitors, while suppressing the differentiation into hepatic or intestinal cells. We also found that a combination of 3-isobutyl-l-methylxanthine （IBMX）, exendin-4, and nicotinamide was important for the differentiation into insulin single-positive cells that expressed various pancreatic β-cell markers. Most notably, the differentiated cells contained en- dogenous C-peptide pools that were released in response to various insulin secretagogues and high levels of glucose. Therefore, our results demonstrate the feasibility of generating hiPS-derived pancreatic β-ceUs under xeno-free conditions and highlight their poten- tial to treat patients with type I diabetes.     

Optimization of the production of triabin, a novel thrombin inhibitor, in High Five™ insect cells infected with a recombinant baculovirus

The isolation of a new type of thrombin inhibitor, called triabin, from the saliva of the hematophagous bug Triatoma pallidipennis, has recently been described. In the in vitro platelet aggregation inhibition assay triabin has a similar potency as the thrombin inhibitor hirudin now in phase III clinical trials. However, in another in vitro assay using a low molecular weight substrate for thrombin, triabin does not inhibit thrombin completely even at 6 fold higher molar doses in comparison with hirudin. This means that triabin has a novel mode of action towards thrombin making triabin into an interesting candidate as a therapeutic agent. Recently it has been shown that a recombinant baculovirus can be efficiently used for the triabin production in insect cells and that the yields in adherent cultures of High Five™ cells (approx. 20 mg l-1) were about 7 fold higher than in adherent cultures of Sf9 cells (approx. 3 mg l- 1). To optimize the triabin yield from the baculovirus/insect cell expression system, experiments were performed with suspension adapted cultures of High Five™ cells to investigate the effects of the state of the host cell, of the multiplicity of infection, of the cell density at the time of infection and of supplementation of the medium with nutrients and oxygen. Triabin yields of up to 200 mg l-1, as determined by an activity assay, could finally be obtained here. This revised version was published online in July 2006 with corrections to the Cover Date.     

β-Secretase (BACE1)-inhibiting C-methylrotenoids from Abronia nana suspension cultures

Suspension cultures of Abronia nana were established to produce C-methylisoflavones. A new C-methylrotenoid, named abronione A (2), was isolated along with three known rotenoids, boeravinone D (1), boeravinone A methyl ether (3), and mirabijalone D (4). The IC₅₀ values of compounds 1, 2, and 4 on β-secretase (BACE1) were 4.77, 62.21, and 4.24 μM, respectively, whereas 3 was inactive. At concentrations up to 1.0 mM, the compounds did not inhibit other proteases such as trypsin, chymotrypsin, and elastase, indicating that they were specific inhibitors of β-secretase. Compounds 1 and 4 were non-competitive inhibitors based on the Dixon plot and with K_i values of 5.01 and 4.28 μM, respectively. At 50 μM, compound 4 inhibited Aβ_1–42 production by 43.7% in APP_SW-N2a cells.     

Improvement of culture conditions to overproduce β-galactosidase from Escherichia coli in Bacillus subtilis

The effect of some culture variables in the production of β-galactosidase from Escherichia coli in Bacillus subtilis was evaluated. The lacZ gene was expressed in B. subtilis using the regulatory region of the subtilisin gene aprE. The host contained also the hpr2 and degU32 mutations, which are known to overexpress the aprE gene. We found that, when this overproducing B. subtilis strain was grown in mineral medium supplemented with glucose (MMG), β-galactosidase production was partially growth-associated, as 40%–60% of the maximum enzyme activity was produced before the onset of the stationary phase. In contrast, when a complex medium was used, β-galactosidase was produced only at low levels during vegetative growth, whereas it accumulated to high levels during early stationary phase. Compared with the results obtained in complex media, a 20% increase in specific β-galactosidase activity in MMG supplemented with 11.6 g/l glucose was obtained. On the 1-l fermenter scale, a threefold increase in volumetric β-galactosidase activity was obtained when the glucose concentration was varied from 11 g/l to 26 g/l. In addition, glucose feeding during the stationary phase resulted in a twofold increase in volumetric enzyme activity as cellular lysis was prevented. Finally, we showed that oxygen uptake and carbon dioxide evolution rates can be used for on-line determination of the onset of stationary phase, glucose depletion and biomass concentration. Received: 18 April 1996 / Received revision: 27 August 1996 / Accepted: 6 September 1996