Sesame hairy root cultures for extra-cellular production of a recombinant fungal phytase

Sesame (Sesamum indicum L.) hairy roots were transformed with a fungal (Aspergillus) phytase and their culture conditions were surveyed for the extra-cellular production of the recombinant phytase protein in shake flasks. Kanamycin resistance of sesame hairy roots was observed at 50 μg ml⁻¹ kanamycin sulfate and southern hybridization analysis confirmed the existence of the phytase gene in the hairy root genomic DNA. The continuous dark condition was more effective for both the root growth and phytase production than light. Slightly higher root growth was determined at 30 °C than 26 °C in Murashige & Skoog (MS) medium supplemented with 3% sucrose, while the final phytase production was greatest in MS medium with 5 or 3% sucrose at both temperatures of 26 and at 30 °C. Among the culture media used, full-strength MS medium was exclusively efficient for production of the recombinant phytase. Most rapid increase rates in both the root growth and phytase production were detected at the 4th week of the culture periods and thereafter their rates began to decrease. Our results indicated that 5–6-week culture periods may be necessary for the maximal phytase production. Western analysis revealed that even though the phytase proteins expressed were measured with greater activities in the liquid medium than in the root tissues, they were still retained in the tissues.     

Over-expression of human type I (placental) 3β-hydroxy-5-ene-steroid dehydrogenase/isomerase in insect cells infected with recombinant baculovirus

Human type I placental 3β-hydroxy-5-ene-steroid dehydrogenase/steroid 5→4-ene-isomerase (3β-HSD/isomerase) synthesizes androstenedione from fetal dehydroepiandrosterone and progesterone from pregnenolone. The full length cDNA that encodes type I 3β-HSD/isomerase was inserted into the baculovirus, Autographa californica multiple nucleocapsid polyhedrosis virus, and expressed in Spodoptera fungiperda (Sf-9) insect cells. Western blots showed that the baculovirus-infected Sf-9 cells produced an immunoreactive protein that co-migrated with purified placental 3β-HSD/isomerase. Ultracentrifugation localized the expressed enzyme activities in all the membrane-associated organelles of the Sf-9 cell (nuclear, mitochondrial and microsomal). Kinetic studies showed that the expressed enzyme has 3β-HSD and isomerase activities. The Michaelis-Menton constant is very similar for the 3β-HSD substrate, 5-androstan-3β-o1-17-one, in the Sf-9 cell homogenate (K_m = 17.9 μM) and placental microsomes (K_m = 16.7 μM). The 3β-HSD activity (V_max = 14.5 nmol/min/mg) is 1.6-fold higher in the Sf-9 cell homogenate compared to placental microsomes (V_max = 9.1 nmol/min/mg). The K_m values are almost identical for the isomerase substrate, 5-androstene-3,17-dione, in the Sf-9 cell homogenate (K_m = 14.7 μM) and placental microsomes (K_m = 14.4 μM). The specific isomerase activity is 1.5-fold higher in the Sf-9 cells (V_max = 25.7 nmol/min/mg) relative to placenta (V_max = 17.2 nmol/min/mg). These studies show that our recombinant baculovirus system over-expresses fully active enzyme that is kinetically identical to native 3β-HSD/isomerase in human placenta.     

Vanilla Flavour Production Through Biotransformation Using Capsicum frutescens Root Cultures

Normal roots of Capsicum frutescens were excised from tissue-cultured plants into half strength Murashige and Skoog's medium with 2.23 μM naphthalene acetic acid. Maximum growth of cultured roots was 6.5 g fresh weight 40 ml^-1, as recorded on day 20. Even though normal roots were unable to accumulate capsaicin, they contained other phenylpropanoid intermediates and vanillylamine, as detected by HPLC analysis. Normal roots of Capsicum frutescens were treated with ferulic acid and protocatechuic aldehyde in order to study their biotransformation ability. Ferulic acid, which is the nearest precursor to vanillin, when fed at concentrations of 1 and 2 mM led to the accumulation of vanilla flavour metabolites, vanillin being the major one. In cultures treated with 1 and 2 mM ferulic acid, maximum vanillin accumulation of 12.3 and 16.4 μM was observed, on day 6 after precursor addition, respectively. Feeding of ferulic acid and β-cyclodextrin complex (2 mM each) enhanced the accumulation of biotransformed products. Moreover, vanillin accumulation was recorded as 24.7 μM on day 6 after precursor addition, which was 1.5 times higher than in cultures fed with ferulic acid (2 mM) alone. When ferulic acid was fed along with β-cyclodextrin (1 mM each) to cultures growing in a three-litre bubble column bioreactor, the maximum vanillin production of 10.7 μM was obtained; other vanilla flavour metabolites were also formed after 9 days of precursor addition. Root cultures could also biotransform protocatechuic aldehyde wherein a maximum vanillin production of 7.9 μM was recorded on day 6 after precursor addition. The bioconversion efficiency was observed to be 5-7% in case of ferulic acid fed cultures and 3.2% in case of protocatechuic aldehyde fed cultures suggesting the possible channelling of precursors to alternate biosynthetic pathways such as lignin.     

Production of polysaccharides in liquid cultures of Polianthes tuberosa cells

Summary The effects of components of the medium on the production of extracellular polysaccharide (EPS) by cultured cells of Polianthes tuberosa (tuberose) were studied. Optimization of media components culturing in flask resulted in increasing EPS production from 1.4 to 4.1 g/l. In particular, relatively high concentration (10^\s-5M) of 2,4-dichlorophenoxyacetic acid (2,4-D) markedly stimulated the production of EPS. Based on these results, EPS production by a 30-1 jar fermenter was attempted and the final rate of Production was 4.6 g/l at 30th day of culture. The EPS consisted mainly of acidic polysaccharides with glucuronic acid, mannose, arabinose, galactose, glucose and xylose.     

Somatic embryogenesis in Narcissus pseudonarcissus cvs. Golden Harvest and St. Keverne

Somatic embryos (SEs) have been produced from bulb and shoot culture leaf explants of Narcissus pseudonarcissus cvs. Golden Harvest and St. Keverne. Initial experiments with cv. Golden Harvest resulted in SEs from leaf lamina, leaf base, bulb scale and scape (flower stem) explants. Embryogenesis was induced on media with a range of 2,4-dichlorophenoxyacetic acid (2,4-D) and 6-benzylaminopurine (BAP) concentrations. There were significantly more SEs with media containing 5 μM 2,4-D and 0.5 μM or 5 μM BAP than any other growth regulator combination. Scape explants produced more early SEs than the other explant types, and when orientated with their basipetal surface away from the medium, they produced significantly more advanced SEs than those with this surface in contact with the medium. Leaf explants from shoot cultures of cv. Golden Harvest produced SEs on medium with BAP combined with 2,4-D or 1-naphthaleneacetic acid (NAA), but 4-amino-3, 5, 6-trichloro-2-pyridinecarboxylic acid (picloram) was ineffective. SEs converted to plantlets efficiently following a 4°C treatment in addition to 4.9 μM indole-3-butyric acid (IBA). These plantlets readily transferred to ex vitro conditions.     

Capsaicin inhibits calmodulin-mediated oxidative burst in rat macrophages

In this study we seek to elucidate the interaction of capsaicin with the calmodulin mediated signal pathways in macrophages, by comparing its action on macrophage functions with a known calmodulin antagonist, fluphenazine. Kinetics of capsaicin uptake by macrophages (10³ cells) revealed that a maximum of 200 μM capsaicin was taken up within 10 min. Ca²⁺ ionophore triggered generation of superoxide anion and hydrogen peroxide by macrophages was inhibited in a dose-dependent manner by fluphenazine (IC₅₀, 20 μM and 12 μM, respectively) and also by capsaicin (IC₅₀, 30 μM and 9 μM, respectively), suggesting an involvement of calmodulin in the regulation of NADPH oxidase. In vitro both fluphenazine and capsaicin inhibited Ca²⁺-Mg²⁺ ATPase and cAMP-phosphodiesterase from macrophages and this inhibition was reversed by exogenous addition of calmodulin. Fluorescence studies revealed a direct Ca²⁺ dependent interaction of capsaicin with calmodulin. From these results we suggest that capsaicin acts via calmodulin to inhibit stimulus-induced macrophage oxidative burst and also that calmodulin regulates the oxidative burst in macrophages.     

Influence of 2,4-D, IAA, and duration of callus induction in anther cultures of spring wheat

Culture media and environmental factors may significantly influence the yield of haploid plants from anther cultures. Our objectives were to identify a combination of 2,4-dichlorophenoxyacetic acid (2,4-D) and indoleacetic acid (IAA) concentrations which produce the maximum number of haploid plants, and to evaluate the effects of duration in induction medium on calli induction, plant regeneration, and green plant production from anther cultures in spring wheat. Significant (P ≤ 0.01) plant growth regulator concentration effects (2,4-D and IAA) were observed on the number of calli, green plants and albino plants produced, and on direct plant regeneration. Addition of 2,4-D to the induction medium resulted in significantly (P ≤ 0.01) higher means for all anther culture components compared to IAA> While addition of 2,4-D significantly (P ≤ 0.01) reduced plant regeneration, it substantially increased green plant percentage at a 0.3-mg l⁻¹ concentration of IAA. Use of response functions to estimate the maximum effective 2,4-D × IAA combination implied that higher 2,4-D levels in the induction medium should be investigated, and that the optimum hormone combination differs for plant regeneration and green plant percentage. Significant (P ≤ 0.01) effects of duration on callus induction medium were observed for plant regeneration and green plant percentage.     

Asymmetric Reduction of 4-Oxoisophorone Using Immobilized Thermophilic Bacteria Under Conditions of Controlled Cell Growth

Asymmetric reduction of 2,6,6,-trimethyl-2-cyclohexene-l,4-dione (4-oxoisophrone) to (6R)-2,2,6-trimethyl-1,4-cyclohexane-dione((3R)-dihydro-4-oxoisophorone) was catalysed by immobilized thermophilic bacteria, Thermomonospora curvata JTS 321. Because of leakage of entrapped cells from gel beads during reactions using culture medium, we optimized the medium to allow the microbial conversion under conditions of controlled cell growth. Of the media screened, liver infusion medium was found to be the most suitable and microbial conversion was achieved without cell leakage from the immobilized gels. Immobilized T. curvata cells were repeatedly used for the asymmetric reduction of 4-oxoisophorone, more than 15 times, with an extent of conversion of 50%.     

Antibacterial activity from Penicillium corylophilum Dierckx

A strain of Penicillium corylophilum isolated from Brazilian soil sample was submitted to different culture conditions to investigate the production of secondary metabolites with antimicrobial activity. The largest number of conidia was obtained after 5 days of incubation in oat medium and the highest level of antimicrobial activity was produced when the fungus culture was developed in the Czapek medium. The activity against Staphylococcus aureus was found only in the chloroform extract from Czapek culture broth, which also showed activity against Micrococcus luteus. Fumiquinozoline F was isolated from the active chloroform extract by using chromatographic methods. The minimal inhibitory concentration (MIC) values for M. luteus and S. aureus were 99 μg/mL and 137 μg/mL, respectively.     

Increased capsaicin content in PFP-resistant cells of chili pepper (Capsicum annuum L.)

Cell suspensions of chili pepper (Capsicum annuum L.) were subjected to a selection process on semisolid medium containing the amino acid analog p-fluorophenylalanine (PFP). Four cell lines with different degrees of resistance were selected and suspension cultures were established from each of them. Resistance was retained even after 75 days of culture in the absence of PFP. PFP-resistant cell lines accumu lated higher levels of capsaicin than sensitive lines even after prolonged culture in PFP-free medium. Capsaicin production in non-selected cells was only 26.8% of that found in one cell line resistant to 500 M PFP. The capsaicin content in the non-selected cell suspension and in one of the resis tant cell lines was 6.7% and 24.9% respectively, that of fruits.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - PFP p-fluorophenylalanine - d. wt. dry weight - f. wt. fresh weight     

Production and secretion of biologically active recombinant canine growth hormone by Pichia pastoris

Production of recombinant canine (Canis familiaris) growth hormone (rCFGH) by two expression systems, methanol utilization slow (Mut^s) and methanol utilization plus (Mut⁺) based on Pichia pastoris. Led by the Saccharomyces cerevisiae -mating type signal sequence (SS), the hormone was secreted into the culture medium in its mature and active form. The level of total proteins secreted into the medium achieved at 25 ml working volume using Erlenmeyer flasks was approximately 40 and 15 μg/ml for Mut^s and Mut⁺ constructs, respectively. As judged by densitometry of proteins resolved by sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE), the hormone produced by the fermented Mut^s strain upon induction with methanol reached 24 μg/ml, representing around 60% of the total secreted proteins and being eight times more abundant than in its Mut⁺ counterpart. Finally, the recombinant hormone showed activity when tested in the Nb2 cell proliferation assay.     

Human 17β-hydroxysteroid dehydrogenase: overproduction using a baculovirus expression system and characterization

Estrogenic 17β-hydroxysteroid dehydrogenase (17β-HSD) plays a pivotal role in the synthesis of estrogens. We overproduced human placental estrogenic 17β-HSD using a baculovirus expression system for the study of the enzyme mechanism. A cDNA encoding the entire open reading frame of human 17β-HSD was inserted into the genome of Autographa californica nuclear polyhedrosis virus and expressed in Spodoptera frugiperda (Sf9) insect cells. Metabolic labeling and Western blot analysis using polyclonal antibodies raised against native human 17β-HSD indicated that a molecule with an apparent mass of 35 kDa was maximally expressed 60 h after infection. At that time interval, intracellular 17β-HSD activity reached 0.26 U/mg of protein in crude homogenate, about 70 times the level measured in human placenta. Purification of recombinant 17β-HSD was achieved by a single affinity fast liquid protein chromatography step yielding 24 mg of purified 17β-HSD protein per liter of suspension culture, with a specific activity of about 8 μmol/min/mg of protein for conversion of estradiol into estrone, at pH 9.2. In addition, the recombinant protein purified from infected Sf9 cells was assembled as a dimer with molecular mass and specific activity identical to those of the enzyme purified directly from placenta. The present data show that the baculovirus expression system can provide active 17β-HSD that is functionally identical to its natural counterpart and easy to purify in quantities suitable for its physico-chemical studies.     

Influence of yeast immobilization on fermentation and aldehyde reduction during the production of alcohol-free beer

Production of alcohol-free beer by limited fermentation is optimally performed in a packed-bed reactor. This highly controllable system combines short contact times between yeast and wort with the reduction of off-flavors to concentrations below threshold values. In the present study, the influence of immobilization of yeast to DEAE-cellulose on sugar fermentation and aldehyde reduction was monitored. Immobilized cells showed higher activities of hexokinase and pyruvate decarboxylase compared to cells grown in batch culture. In addition, a higher glucose flux was observed, with enhanced excretion of main fermentation products, indicating a reduction in the flux of sugar used for biomass production. ADH activity was higher in immobilized cells compared to that in suspended cells. However, during prolonged production a decrease was observed in NAD-specific ADH activity, whereas NADP-specific activity increased in the immobilized cells. The shifts in enzyme activities and glucose flux correlate with a higher in vivo reduction capacity of the immobilized cells.     

The effects of insulin-like growth factor-I and insulin on placental lactogen production by human term placental explants

The effects of insulin-like growth factor (IGF)-I and insulin on placental lactogen production (hPL) by term human placental explants were studied. The hPL content in medium and explant decreased rapidly after first 24 hours of culture. The decrease thereafter was gradual and reached a plateau by day 4 of culture. The decrease of HPL content in placental culture has previously been suggested being due to the depletion of a rapidly secreting preformed pool of hPL. Addition of IGF-I (0.1-10 micrograms/ml) and insulin (1-20 micrograms/ml) stimulated the decreased level of hPL in tissue and medium after 24 hours in culture. IGF-I was 10 times more potent than insulin in stimulating hPL. These findings suggest that IGF-I and insulin effects the production of hPL by placenta. The lower potency of insulin may indicate that the effect of insulin on hPL production is via IGF-I receptor.     

Plant regeneration from embryogenic suspension cultures of Chinese yam (Dioscorea opposita thunb.)

A competent, embryogenic suspension culture of Chinese yam (Dioscorea opposita Thunb. cv. ‘Nagaimo’) has been obtained. Embryogenic callus was induced from stem segments cultured on an agar-solidified MS medium containing 2,4-dichlorophenoxyacetic acid (2,4-D). One month following placement of the embryogenic callus in a liquid medium containing 2,4-D, the embryogenic tissue began to proliferate rapidly. Established suspension cultures consisted almost entirely of early-stage pro-embryos with very little contamination from non-embryogenic tissues. Under optimum conditions, suspension culture packed cell volume increased 2.5-fold per week. Following transfer of the tissue to a hormone-free medium, the embryogenic tissue developed. Globular embryos were formed within 4 weeks and addition of benzyl adenine further enhanced development and germination. Plantlets were regenerated by culturing embryos on a hormone-free agar-solidified medium.     

Establishment of callus and cell suspension culture of Scrophularia striata Boiss.: an in vitro approach for acteoside production

In the present study, a protocol was optimized for establishment of callus and cell suspension culture of Scrophularia striata Boiss. as a strategy to obtain an in vitro acteoside producing cell line for the first time. The effects of growth regulators were analyzed to optimize the biomass growth and acteoside production. The stem explant of S. striata was optimum for callus induction. Modified Murashige and Skoog medium supplemented with 0.5 mg/l naphthalene acetic acid + 2.0 mg/l benzyl adenine was the most favorable medium for callus formation with the highest induction rate (100 %), the best callus growth and the highest acteoside content (1.6 μg/g fresh weight). Incompact and rapid growing suspension cells were established in the liquid medium supplemented with 0.5 mg/l naphthalene acetic acid + 2.0 mg/l benzyl adenine. The optimum time of subculture was found to 17–20 days. Acteoside content in the cell suspension was high during exponential growth phase and decreased subsequently at the stationary phase. The maximum content of acteoside (about 14.25 μg/g cell fresh weight) was observed on the 17th day of the cultivation cycle. This study provided an efficient way to further regulation of phenylethanoid glycoside biosynthesis and production of valuable acteoside, a phenylethanoid glycoside, on scale-up in S. striata cell suspension culture.     

Biotransformation of protocatechuic aldehyde and caffeic acid to vanillin and capsaicin in freely suspended and immobilized cell cultures of Capsicum frutescens

Freely suspended cells and immobilized cell cultures of Capsicum frutescens Mill. were treated with phenylpropanoid intermediates--protocatechuic aldehyde and caffeic acid to study their biotransformation ability. It was found that externally fed protocatechuic aldehyde and caffeic acids were biotransformed to vanillin and capsaicin. It was noted that this culture biotransformed externally fed protocatechuic aldehyde to vanillin more than its conversion to capsaicin, whereas, caffeic acid-treated cultures accumulated more capsaicin than vanillin. The maximum accumulation of vanillin (5.63 mg l(-1)) and capsaicin (3.83 mg l(-1)) was recorded on the 6th and 15th day, respectively in immobilized C. frutescens cell cultures treated with protocatechuic aldehyde, which was 1.8 and 1.4 times higher than in protocatechuic aldehyde-treated freely suspended cell cultures. Caffeic acid-treated immobilized C. frutescens cell cultures accumulated maximum vanillin and capsaicin at 2.68 and 3.03 mg l(-1) culture, respectively, on the 9th and 12th day, which was 1.65 and 1.33 times over freely suspended cultures treated with caffeic acid. The addition of S-adenosyl-L-methionine, a methyl donor, to protocatechuic aldehyde-treated immobilized C. frutescens cell cultures, resulted in accumulation of vanillin (14.08 mg l(-1)) on the 4th day, which was 2.5-fold higher than that in cultures treated with protocatechuic aldehyde alone, suggesting the influence of S-adenosyl-L-methionine on O-methylation of protocatechuic aldehyde, resulting in more vanillin accumulation. The increase in vanillin accumulation was well correlated with an increase in specific activity of caffeic acid O-methyltransferase in protocatechuic aldehyde and S-adenosyl-L-methionine-treated immobilized C. frutescens cell cultures. This study also provides an example for an alternative route to formation of vanillin by C. frutescens cell cultures.     

In vivo and in vitro studies on sex steroid binding protein (SBP) regulation in rainbow trout (oncorhynchus mykiss): Influence of sex steroid hormones and of factors linked to growth and metabolism

The respective roles of sex steroids and hormones related to growth and metabolism, on SBP regulation have been studied in rainbow trout. In vivo, oestradiol (E2) supplementation induces a slow but significant increase of plasma SBP concentration. Testosterone or cortisol injections have no effect. In vitro, the steroid binding protein that accumulates in incubation medium of hepatic cell primary cultures has been characterized and found to be similar to blood SBP. Its production is increased by addition of E2 (maximum: + 300%). This effect develops slowly over several days of culture and is dose dependent; as little as 1–10 nM E2 is effective.

Recombinant rainbow trout GH (rtGH)—0.01 to 1 μg/ml—also increases SBB accumulation as compared to control cells and seems to maintain SBP production over culture duration. In preliminary experiments, (1) insulin-like growth factor (IGF) and SBP concentrations were found to change inversely after a 4 days stimulation with increasing concentrations of GH; (2) recombinant human IGF₁ (250 ng/ml) tended to be inhibitory when SBP production was expressed per mg of total cellular protein, and a micromolar concentration of bovine insulin was clearly inhibitory.

Other hormones tested in vitro: triiodothyronine (10–1000 nM), thyroxine (100 nM), 17,20β-dihydroprogesterone (10–2000 nM), and testosterone (1–1000 nM) did not influence SBP concentration in hepatic cells culture media.     

Immobilization of Nicotiana tabacum plant cell suspensions within calcium alginate gel beads for the production of enhanced amounts of scopolin

Scopolin-producing cells of Nicotiana tabacum were immobilized within Ca-alginate gel beads. Free cell suspensions accumulated scopolin within cytoplasmic compartments and cell disruption was necessary to recover scopolin. On the contrary, immobilized plant cells excreted considerable amounts of scopolin. Scopolin diffused throughout the gel matrix and reached the culture media. A large fraction of produced scopolin could then be recovered from the culture medium without disrupting cells. Immobilized N. tabacum cells produced more scopolin than free cell suspensions did (3.8 mg/g fresh weight biomass [into the culture media] versus 0.2 mg/g fresh weight biomass [intracellular]). Variation of the immobilization conditions revealed a marked influence on the behavior of N. tabacum plant cells: production of scopolin and enhanced excretion, cell growth, and morphological aspect of plant cell colonies. This excretion phenomenon could be used advantageously at an industrial production level.