Nutritional requirements of Plasmodium falciparum in culture. I. Exogenously supplied dialyzable components necessary for continuous growth

Continuous cultivation of Plasmodium falciparum presently requires the nutritionally complex medium, RPMI 1640. A basal medium of KCl, NaCl, Na2HPO4, Ca(NO3)2, MgSO4, glucose, reduced glutathione, HEPES buffer, hypoxanthine, phenol red (in RPMI 1640 concentrations), and 10% (v/v) exhaustively dialyzed pooled human serum was used to determine which vitamins and amino acids had to be exogenously supplied for continuous cultivation. Supplementation of basal medium with calcium pantothenate, cystine, glutamate, glutamine, isoleucine, methionine, proline, and tyrosine was necessary for continuous growth. This semi-defined minimal medium supported continuous growth of four isolates of P. falciparum at rates slightly less than those obtained with RPMI 1640. Adding any other vitamin or amino acid did not improve growth. Incorporation of several non-essential amino acids, particularly phenylalanine and leucine, into proteins was markedly enhanced in the minimal medium compared to RPMI 1640.     

Nutritional Requirements of Plasmodium falciparum in Culture. II. Effects of Antimetabolites in a Semi Defined Medium1

A semi-defined minimal medium, in which pantothenic acid is the only vitamin, was used to culture Plasmodium falciparum for the analysis of antimetabolite drugs. Analogs of riboflavin, nicotinamide, pyridoxine, and thiamin inhibited the growth of this parasite; for each drug, effects were much more pronounced after 96 h of exposure compared to 48 h. The most potent drug examined was 8-methylamino-8-desmethyl riboflavin (IC₅₀ value approximately 1.0 times 10^-10 M at 96 h). Avidin, a protein which complexes and thus inactivates biotin, did not affect parasite viability. Other antimalarial drugs, including chloroquine and quinine derivatives and antibiotics, were equipotent in the minimal medium and in RPMI 1640. Four strains of P. falciparum showed only minor differences in sensitivity to these antimetabolites. The use of prolonged drug exposure times and a vitamin-depleted medium allowed the preliminary characterization of antimalarial antimetabolites in vitro.     

Characterization of a multifunctional feather-degrading <Emphasis Type="Italic">Bacillus subtilis</Emphasis> isolated from forest soil

In this study, we isolated and characterized a novel feather-degrading bacterium that shows keratinolytic, antifungal and plant growth-promoting activities. A bacterium S8 was isolated from forest soil and confirmed to belong to Bacillus subtilis by BIOLOG system and 16S rRNA gene analysis. The improved culture conditions for the production of keratinolytic protease were 0.1% (w/v) sorbitol, 0.3% (w/v) KNO₃, 0.1% (w/v) K₂HPO₄, 0.06% (w/v) KH₂PO₄ and 0.04% (w/v) MgCl₂·6H₂O (pH 8.0 and 30°C), respectively. In the improved medium containing 0.1% (w/v) feather, keratinolytic protease production was around 53.3 ± 0.3 U/ml at 4 day; this value was 10-fold higher than the yield in the basal feather medium (5.3 ± 0.1 U/ml). After cultivation for 5 days in the improved medium, intact feather was completely degraded. Feather degradation resulted in free –SH group, soluble protein and amino acids production. The concentration of free –SH group in the culture medium was 15.5 ± 0.2 μM at 4 days. Nineteen amino acids including all essential amino acids were produced in the culture medium; the concentration of total amino acid produced was 3360.4 μM. Proline (2809.9 μM), histidine (371.3 μM) and phenylalanine (172.0 μM) were the major amino acids released in the culture medium. B. subtilis S8 showed the properties related to plant growth promotion: hydrolytic enzymes, ammonification, indoleacetic acid (IAA), phosphate solubilization, and broad-spectrum antimicrobial activity. Interestingly, the strain S8 grown in the improved medium produced IAA and antifungal activity, indicating simultaneous production of keratinolytic and antifungal activities and IAA by B. subtilis S8. These results suggest that B. subtilis S8 could be not only used to improve the nutritional value of feather wastes but also is useful in situ biodegradation of feather wastes. Furthermore, it could also be a potential biofertilizer or biocontrol agent applicable to crop plant soil.     

Observation on Complete Schizogony of Plasmodium vivax in Vitro1

Attempts to grow Plasmodium vivax in vitro were made on 43 isolates in three different culture media. Complete schizogony occurred in the new medium SCMI 612 in which 34 out of 43 isolates produced merozoites. The RPMI 1640 and Waymouth media suitable for the cultivation of P. falciparum were also used with markedly less success. Results of the experiments indicate differences in nutritional requirements between the two species of Plasmodium.     

Development of a serum-free medium for <Emphasis Type="Italic">in vitro</Emphasis> expansion of human cytotoxic T lymphocytes using a statistical design

Background  

Serum-containing medium (SCM), which has a number of poorly defined components with varying concentrations, hampers standardization of lymphocyte cultures. In order to develop a serum-free medium (SFM) for the expansion of human lymphocytes from peripheral blood mononuclear cells (PBMCs), a statistical optimization approach based on a fractional factorial method and a response surface method was adopted. A basal medium was prepared by supplementing RPMI1640 medium with insulin, albumin, ferric citrate, ethanolamine, fatty acids, glutamine, sodium pyruvate, 2-mercaptoethanol, 1-thioglycerol, nonessential amino acids, and vitamins. We identified additional positive determinants and their optimal concentrations for cell growth through a statistical analysis.     

Interference of Copper Sulphate in Growth of Erwinia amylovora

To understand the toxicity of copper salts on Erwinia amylovora, which are used in the control of fire blight, bacterial growth and cell metabolism was assayed with copper sulphate in the presence or absence of complex-forming compounds such as various amino acids or citrate. In minimal medium without amino acids copper sulphate strongly interfered with the growth of E. amylovora. A concentration of 15 μm CuSO₄ resulted in about 50% growth inhibition. In contrast to a strong effect of streptomycin, copper ions barely killed the cells when incubated in minimal medium for 1 h. The addition of 4 g asparagine per litre relieved a‘bacteriostatic’effect of copper ions and allowed growth of the bacteria at 2 mm CuSO₄. Other amino acids had a similar effect in the protection of E. amylovora against copper ions. This was in contrast to glycine betain, which was unable to suppress growth inhibition by CuSO₄. Presumably, the free ammonium groups of amino acids participated in the protective effect. The addition of citrate, exceeding the amount of copper-ions, was also protective. Bioluminescence of E. amylovora cells was expressed via a constitutive promoter from the lux-operon of Vibrio fischeri. The light emission is dependent on active cell metabolism. In a novel approach to determine the immediate response of E. amylovora after the addition of copper sulphate, the change of bioluminescence was determined. Addition of copper ions to MM3 medium strongly affected the bioluminescence, but no change in light production was noticed, when citrate or asparagine were present in addition to copper sulphate. A decrease of bioluminescence to 50% was observed for 50 μm CuSO₄ in the absence of amino acids.     

Nutritional Interdependence Among Rumen Bacteria, Bacteroides amylophilus, Megasphaera elsdenii, and Ruminococcus albus

Nutritional interdependence among three representatives of rumen bacteria, Bacteroides amylophilus, Megasphaera elsdenii, and Ruminococcus albus, was studied with a basal medium consisting of minerals, vitamins, cysteine hydrochloride, and NH₄⁺. B. amylophilus grew well in the basal medium supplemented with starch and produced branched-chain amino acids after growth ceased. When cocultured with B. amylophilus in the basal medium supplemented with starch and glucose, amino acid-dependent M. elsdenii produced an appreciable amount of branched-chain fatty acids, which are essential growth factors for cellulolytic R. albus. A small addition of starch (0.1 to 0.3%) to the basal medium containing glucose and cellobiose brought about successive growth of the three species in the order of B. amylophilus, M. elsdenii, and R. albus, and successive growth was substantiated by the formation of branched-chain amino acids and fatty acids in the culture. Supplementation with 0.5% starch, however, failed to support the growth of R. albus. On the basis of these results, the effects of supplementary starch or branched-chain fatty acids on cellulose digestion in the rumen was discussed.     

Plasmodium falciparum: continuous cultivation of erythrocyte stages in plasma-free culture medium

Continuous in vitro cultivation of the malaria parasite, Plasmodium falciparum, was performed in plasma-free medium. The medium used was standard RPMI 1640 supplemented with adenosine, unsaturated C-18 fatty acids, and fatty acid-free bovine serum albumin. The medium was changed daily and the cultures were diluted with washed erythrocytes twice weekly. Growth was routinely maintained for 1 month at which time the experiments were usually terminated. Although the overall growth rates were consistently lower than in control cultures with plasma, continuous growth occurred in the absence of plasma in cultures containing cis-vaccenic, oleic, and linoleic acids.     

Development of Defined, Minimal, and Complete Media for the Growth of Hyphomicrobium neptunium

A complete synthetic medium containing 15 amino acids, a minimal synthetic medium (GAMS) containing 4 amino acids, and a supplemented minimal medium (GAMS + calcium pantothenate) have been developed for the cultivation of Hyphomicrobium neptunium ATCC 15444. Depending on the complexity of the synthetic media, generation times were approximately 2 to 3 times longer, and maximum cell densities were 0.3 to 0.9 log₁₀ lower than in ZoBell marine broth 2216. The fates of ¹⁴C-labeled amino acids in GAMS were monitored. Results suggested that H. neptunium was auxotrophic for methionine, utilized glutamic acid as a primary energy source, and readily anabolized and catabolized serine and aspartic acid. Individual amino acid concentrations above 125 mM induced prolonged lag periods, whereas only methionine was not growth limiting at a concentration as low as 2 mM.     

Long-term in vitro cultivation of Plasmodium berghei

Long-term in vitro culture of Plasmodium berghei was established using the Petri dish candle jar method of Trager and Jensen (1976). Cultures were established at 22, 27 and 37°C. As optimal growth was observed at 27°C, subsequent cultivation was carried out at this temperature. RPMI 1640 medium was modified by incorporating additional glucose (1 mg ml⁻¹) and bactopeptone (1 mg ml⁻¹) in the medium. This medium was found suitable for maintenance of mouse erythrocytes in vitro. P. berghei cultures were maintained using candle jars and this modified RPMI 1640 medium for 45 weeks.     

Observations consistent with autocrine stimulation of hybridoma cell growth and implications for large-scale antibody production

Existence of autocrine growth factors (aGFs) may influence the serum requirement for growth of hybridoma cells and thus significantly influence process economics. For the murine hybridoma cell line S3H5/2bA2, critical inoculum density (cID) and serum requirement for growth were inversely related for cultivation in both T flasks and spinner flasks. In spinner flasks, an inoculum density of 10⁶ cells/ml was necessary for the cells to grow in RPMI 1640 medium without serum supplement, and an inoculum density of 10³ cell/ml was necessary in RPMI 1640 medium with 10% serum. In T flasks, where the local cell density is higher than in spinner flasks, an inoculum density of 10⁶ cells/ml was necessary for the cells to grow in RPMI 1640 medium without serum supplement, and an inoculum density of 1 cell/ml was also necessary in RPMI 1640 medium with 10% serum. Further, immobilized cells at high local cell density could grow under conditions where cells in T flasks at corresponding overall cell density could not grow. The cells at high inoculum density were less sensitive to shear induced by mechanical agitation than the cells at low inoculum density. Taken together these observations support the existence of secreted aGF(s) by the hybridoma cell line used. Since the specific MAb production rate was independent of cultivation method and inoculum density, the existence of autocrine growth factors would suggest that the use of immobilized cells should improve the economics of MAb production.     

Increase of the antimicrobial susceptibility ofYersinia enterocolitica associated with the expression of the virulence plasmid

Virulent strains ofYersinia enterocolitica incubated in RPMI 1640 medium with 25 mM HEPES at 37°C were more susceptible to several antibiotics than their plasmid-free isogenic derivatives. The enumeration of viable bacteria in RPMI 1640 agar at 37°C to discriminate between plasmid-bearing and spontaneously derived, plasmid-free bacteria made it possible to show that the plasmid presence was associated with a fourfold decrease of minimal inhibitory concentration of ampicillin, streptomycin, gentamicin, chloramphenicol, and oxytetracycline. SinceY. enterocolitica is an intracellular pathogen and RPMI 1640 medium mimics the intracellular milieu, the plasmid-associated increase of susceptibility to antibiotics that are concentrated by animal cells may be of clinical relevance.     

Improvement of a Chemically Defined Medium for the Sustained Growth of <Emphasis Type="Italic">Lactobacillus plantarum</Emphasis>: Nutritional Requirements

The aims of this work were to improve a basal synthetic medium (BM) for the growth of Lactobacillus plantarum strains and to establish their amino-acid requirements. Amino-acid use was analyzed in the most nutritionally demanding bacterium. First, the improved BM (L. plantarum synthetic medium [LPSM]) was created by increasing some vitamins in the BM, especially p-aminobenzoic acid, vitamin B₁₂, and biotin; 5-fold phenylalanine, histidine, isoleucine, leucine, lysine, methionine, proline, serine, threonine, and tryptophan; and 10-, 60-, and 75-fold valine, arginine, and tyrosine, respectively. With these additions, the N8 and N4 strains of L. plantarum grew rapidly to reach final cell densities similar to those obtained in Mann–Rogosa–Sharpe medium. When cysteine, leucine, valine, isoleucine, threonine, and glutamic acid were individually removed from this medium, bacterial growth significantly decreased or ceased, indicating that these amino acids are essential for growth. The N4 strain also required lysine and tryptophan in addition to the six amino acids necessary for growth. L. plantarum N4 mainly consumed essential amino acids, such as valine, lysine, cysteine, and threonine as well as the stimulatory amino acid, arginine. Thus, the BM was improved mainly on the basis of annulling limitations with respect to amino acids. With this, improved medium cell densities in the order of 10⁹ colony-forming units/mL have been achieved, indicating that LPSM medium could be used for conducting metabolic and genetic studies on L. plantarum. Their low levels in orange juice suggest that these amino acids may not satisfy the total nitrogen requirement for the development of L. plantarum in the natural environment.     

Growth of the Peritrich Opercularia coarctata in Axenic Culture*

A synthetic medium for Opercularia coarctata was developed that contains 20 amino acids, 10 vitamins, an 8-component balanced salt solution, Fe₂(SO₄)₃·(NH₄)₂SO₄·24H₂O, Tween 80, stigmasterol, a 7-component nucleic acid mixture, phenol red as an indicator, and 2,500 U.S.P. units/ml penicillin to maintain sterility. This medium supported axenic survival for 96 hr. Multiple supplements of thioctic acid, niacin, niacinamide, inositol, PABA, oleic acid, and Fe(NO₃)₂·9H₂O instead of Fe₂(SO₄)₃·(NH₄)₂SO₄·24H₂O coverted the survival medium into a growth medium, which permitted 36–45 days continuous cultivation of populations in excess of 4 × 10³ cells/3.0 ml final volume. Five generations were produced during the 48 hr logarithmic growth period. Serial transfers at 72 hr and during periods of greatest cell density produced a maximum of 8 generations 96 hr after initiation but the medium failed to sustain growth through more than 6 serial transfers. Extension of this investigation to formulating a minimal axenic medium is discussed.     

Antimalarial Properties of Imipramine and Amitriptyline12

Dietary riboflavin deficiency is known to diminish malarial parasitemia. In this study, we determined whether imipramine and amitriptyline, drugs which inhibit riboflavin metabolism, have antimalarial efficacy. In addition, we evaluated whether these drugs, like other antimalarial agents, increase the hemolytic response to ferriprotoporphyrin IX (FP). The growth of Plasmodium falciparum (FCR3) in the absence and presence of these drugs (10 to 75 μM) was measured by determining (³H)hypoxanthine uptake by intraerythrocytic parasites for 48 h in RPMI 1640 medium. The uptake of (³H)hypoxanthine was significantly reduced in a dose-dependent manner by both imipramine and amitriptyline. The IC₅₀ values of imipramine and amitriptyline at 48 h were 56 and 45 μM, respectively. Both drugs enhanced hemolysis induced by FP (10 or 20 μM). No hemolysis by these drugs was detected in the absence of FP. It is concluded that the tricyclic antidepressants, imipramine and amitriptyline, possess substantial antimalarial properties.     

Effect of media composition on the induction of chorionic gonadotropin by sodium butyrate in HeLa cells

Summary Production of the glycoprotein hormone α-subunit by HeLa cells and its induction by sodium butyrate are dependent on the choice of culture medium. Under identical growth conditions it was found that subunit synthesis in the presence of butyrate was highest in RPMI 1640, lowest in Medium 199 (M199), and intermediate in minimum essential medium (MEM) and Waymouth's MB 752/1. Cell growth was similar in all media examined and was retarded in the presence of butyrate. Alkaline phosphatase activity was also lower in M199 than in RPMI 1640, although, in general, the magnitude of this difference was less than that for the hormone subunit. Incorporation of [1-¹⁴C]butyrate by HeLa cells was simimar in both M199 and RPMI 1640, indicating that uptake and metabolism of the fatty acid were not significantly different under these conditions. In the presence of 3 mM butyrate, mixtures of RPMI 1640 and M199 gave intermediate levels of α-subunit and alkaline phosphatase compared to each medium alone. Intracellular levels of α-subunit as well as that of the culture medium were reduced in M199 compared to RPMI 1640 indicating that synthesis rather than secretion was altered. This work was supported by Grant CA 21534 from the National Institutes of Health, Bethesda, MD.     

Influence of hyperosmolar basal media on hybridoma cell growth and antibody production

To investigate the influence of hyperosmolar basal media on hybridoma response, S3H5/γ2bA2 and DB9G8 hybridomas were cultivated in a batch mode using hyperosmolar basal media resulting from additional sodium chloride supplementation. The basal media used in this study were IMDM, DMEM, and RPMI 1640, all of which are widely used for hybridoma cell culture. In IMDM, two hybridomas showed different responses to hyperosmotic stress regarding specific MAb productivity (q _MAb), though they showed similar depression of cell growth in hyperosmolar media. Unlike S3H5/γ2bA2 hybridoma, the q _MAb of DB9G8 hybridoma was not enhanced significantly around 390 mOsm kg^?1. The variation of basal media influenced DB9G8 hybridoma response to hyperosmotic stress regarding q _MAb. In IMDM, the q _MAb of DB9G8 hybridoma was increased by more than 200% when the osmolality increased from 281 to 440 mOsm/kg. However, in RPMI 1640 and DMEM, similar amplitude of osmolality increase resulted in less than 100% increase in q _MAb. The variation of basal media also influenced the cell growth in hyperosmolar medium. Both hybridomas were more tolerant against hyperosmotic stress in DMEM than in IMDM, which was found to be due to the high osmolality of standard DMEM. The osmolalities of standard IMDM and DMEM used for inocula preparation were 281 and 316 mOsm kg^?1, respectively. Thus, when the cells were cultivated at 440 mOsm kg^?1, the cells in IMDM experienced higher osmotic shock than in DMEM. By using the inoculum prepared at 317 mOsm kg^?1 in IMDM, S3H5/γ2bA2 cell growth at 440 mOsm kg^?1 in IMDM was comparable to that in DMEM. Taken together, the results obtained from this study show that the selection of basal media is an important factor for MAb production by employing hyperosmotic stress.     

Study of the role of iron in the anticryptococcal activity of human serum and fluconazole

Anticryptococcal activity of human serum and apotransferrin in RPMI 1640 was studied in vitro. The effects of varying concentrations of FeCl₃ on this activity was investigated. Possible synergy of serum and apotransferrin with fluconazole was also measured. The fungistatic activity of human serum, whether lyophilized, stored at 4 °C, fresh frozen or purchased from commercial sources vs. Cryptococcus neoformans was comparable. There was no significant loss of fungistatic activity after freezing and thawing the serum up to 10 times. The fungistatic activity of human serum was similar when tested in different tissue culture media with the exception of Medium 199. The addition of apotransferrin (2.0 or 0.2 mg/ml) to RPMI 1640 had an inhibitory effect on cryptococcal growth. This effect was reversed by 20 M of FeCl₃ at both apotransferrin concentrations. By contrast, addition of FeCl₃ to human serum and RPMI 1640 did not reverse inhibition of growth. Fluconazole synergized with the human serum preparations described, but not with pooled commercial serum, for fungicidal activity. Synergistic activity of fluconazole and human serum was not affected by the addition of FeCl₃. Apotransferrin did not show any synergistic fungicidal activity with fluconazole.     

Establishment of an abalone digestive gland cell line secreting various glycosidases in protein-free culture

A cell line designated as ADG was established from an abalone digestive gland using ERDF medium supplemented with 8% fetal bovine serum (FBS), 8% abalone hemolymph, and high concentrations of NaCl, KCl, MgCl₂, MgSO₄, and CaCl₂. ADG cells proliferated better in protein-free medium than in FBS-supplemented medium. Among 9 kinds of media examined, ERDF medium was shown to be optimal for cell growth. ADG cells secreted 13 different kinds of glycosidases in protein-free medium: α-L-fucosidase, β-L-fucosidase, α-D-galactosidase, β-D-galactosidase, N-acetyl-α-D-galactosaminidase, N-acetyl-β-D-galactosaminidase, α-D-glucosidase, β-D-glucosidase, N-acetyl-α-D-glucosaminidase, N-acetyl-β-D-glucosaminidase, α-D-mannosidase, β-D-mannosidase, β-D-xylosidase, and 1-3 xylanase. When ADG cells were cultured in Grace’s insect cell medium, the activity of some secreted glycosidases increased 25-fold to 65-fold per cell as compared with control cells cultured in ERDF medium. ADG - abalone digestive gland; ERDF - enriched RDF; FBS - fetal bovine serum; L-15 - Leibovitz’s L-15 media; DME - Dulbecco’s modified Eagle medium; F-12 - nutrient mixture (Ham); LDF - L-15; DME: F-12 = 10 : 7 : 3; MEM - minimum essential medium; RPMI - RPMI medium 1640; 199 - media 199; GIC - Grace’s insect cell medium; pNP -p -nitrophenol. This revised version was published online in July 2006 with corrections to the Cover Date.     

Medium optimization for the feather-degradation by <Emphasis Type="Italic">Streptomyces fradiae Var</Emphasis><Emphasis Type="Italic">S-221</Emphasis> using the response surface methodology

In order to accelerate biodegradation of feather into more amino acids, the fermentation medium of feather-biodegrading Streptomyces fradiae Var S-221 was optimized in this paper. In the first optimization step, the effects of feather powder, beet molasses, (NH₄)₂SO₄ and KH₂PO₄ on amino acids formation were evaluated by using full factorial design. The results showed that feather powder and (NH₄)₂SO₄ had significant and positive effects on feather-biodegradation into amino acids. Then, the method of the steepest ascent was used to access the optimal region of the two significant factors. In the third step, the concentration of feather powder and (NH₄)₂SO₄ were further optimized with central composite design and response surface analysis. As a result, the composition of the optimal medium for S. fradiae Var S-221 fermentation were as follows (g/100 ml): feather powder, 19.504; beet molasses, 4.0; (NH₄)₂SO₄, 1.467; KH₂PO₄, 0.3; MgSO₄, 0.15; FeSO₄, 0.001; ZnSO₄, 0.0001; and MnSO₄, 0.0001. Using this optimal fermentation medium, the amino acids concentration was increased from 4.61 to 6.13 g/100 ml.