Effect of aeration on antibiotic production byStreptomyces clavuligerus

Summary During the rapid growth phase ofStreptomyces clavuligerus in a 10 litre fermentor, the level of dissolved oxygen (DO) was found to drop to almost zero for a period of approximately 10 h, delaying the appearance of and lowering the production of the antibiotic cephamycin C. Controlling the DO at either 50% or 100% throughout the fermentation did not significantly alter the specific growth rate of the culture, but did elevate final antibiotic levels two- and three-fold respectively. The improved oxygen availability affected antibiotic production both by increasing the rate of specific cephamycin C bisosynthesis and by maintaining this higher rate throughout the production period. These results demonstrate that controlling dissolved oxygen levels close to saturation during periods of rapid growth markedly improves the efficiency and duration of cephamycin C biosynthesis inS. clavuligerus.     

Influence of agitation and aeration on growth and antibiotic production by <Emphasis Type="Italic">Xenorhabdus nematophila</Emphasis>

The effect of agitation and aeration on the growth and antibiotic production by Xenorhabdus nematophila YL001 grown in batch cultures were investigated. Efficiency of aeration and agitation was evaluated through the oxygen mass transfer coefficient (K _L a). With increase in K _L a, the biomass and antibiotic activity increased. Activity units of antibiotic and dry cell weight were increased to 232 U ml⁻¹ and 19.58 g l⁻¹, respectively, productivity in cell and antibiotic was up more than 30% when K _L a increased from 115.9 h⁻¹ to 185.7 h⁻¹. During the exponential growth phase, DO concentration was zero, the oxygen supply was not sufficient. So, based on process analysis, a three-stage oxygen supply control strategy was used to improved the DO concentration above 30% by controlling the agitation speed and aeration rate. The dry cell weight and activity units of antibiotic were further increased to 24.22 g l⁻¹ and 249 U ml⁻¹, and were improved by 24.0% and 7.0%, compared with fermentation at a constant agitation speed and a constant aeration rate (300 rev min⁻¹, 2.5 l min⁻¹).     

Comparison of free and immobilizedCephalosporium acremonium for β-lactam antibiotic production

Summary Cephalosporium acremonium cells were immobilized in calcium alginate beads. Immobilized cells were used to produce -lactam antibiotics in rest medium under various oxygen concentrations, and the results were compared with free cell performance. Cell growth rate of immobilized cells was 35% of the growth rate of free cells. -Lactam antibiotic production rate of immobilized cells was also limited by mass transfer of oxygen. -Lactam antibiotic production rate of immobilized cells was 70% of that of free cells at oxygen saturation condition (i.e., 0.27 mM O₂). Specific antibiotic production of immobilized cells was about 200% of that of free cells at 0.27 mM O₂.     

EFFECT OF HYPEROXIA ON THE GROWTH AND PHOTOSYNTHESIS OF POLAR SEA ICE MICROALGAE1

Sea ice algal communities are naturally exposed to very high concentrations of dissolved oxygen, which are likely to lead to increasing stress levels and declines in productivity. To test this hypothesis, cultures of Fragilariopsis cylindrus (Grun?) Hasle, Pseudo‐nitzschia sp., Fragilariopsis curta (Van Heurch), Porosira glacialis (Grunow), and Entomoneis kjellmannii (Cleve) from Antarctic sea ice and Nitzschia frigida from Arctic sea ice were exposed to elevated dissolved oxygen levels, and their growth, maximum quantum yield, relative maximum electron transport rate, and photosynthetic efficiency were measured. At oxygen concentrations equivalent to approximately four times air saturation (89% oxygen), the growth rate and maximum quantum yield were significantly reduced in all taxa. When the oxygen concentration was regularly allowed to drop, the effect on growth and quantum yield was reduced. At lower dissolved oxygen concentrations (52%), the declines in growth and quantum yield were reduced but were still mostly significantly different from the controls (21% oxygen). It is likely that the generation of excess active oxygen radicals in the presence of free oxygen is responsible for most of the decline in growth, maximum quantum yield, relative maximum electron transport rate, and photosynthetic efficiency in all species.     

Effects of oxygen supply on the production of nikkomycin with immobilized cells of Streptomyces tendae

Summary For continuous production of the antibiotic nikkomycin immobilized cells have been used in a fluidized bed bioreactor. Cells of Streptomyces tendae were immobilized on sintered glass particles. Different biomass concentrations on the particles correspond to different thicknesses of mycelial layers because growth occurs only on the outer surface of the particles. The antibiotic productivity decreased with increasing layer thickness. In fermentations with higher concentrations of both biomass on the particles and dissolved oxygen levels of about 70% the productivity was also limited because of limited oxygen diffusion in the layers. Offprint requests to: H. U. Trück     

Telithromycin Inhibition of Protein Synthesis and 50S Ribosomal Subunit Formation in <Emphasis Type="Italic">Streptococcus pneumoniae</Emphasis> Cells

The new ketolide antibiotic telithromycin (HMR3647) has been examined for inhibitory effects in cells of Streptococcus pneumoniae. The antibiotic caused a proportional decline in cell growth rate and viability with an IC₅₀ of 15 ng/ml. At a concentration of 7.5 ng/ml, protein synthesis in these cells was reduced by 50%. As seen in other organisms, this compound was also a very effective inhibitor of the formation of the 50S ribosomal subunit in growing cells. Pulse and chase labeling assays defined the reduced rate of 50S synthesis in antibiotic treated cells. At 7.5 ng/ml the rate was reduced to 50% of the control synthesis rate. An IC₅₀ of 15 ng/ml was found for the effect on this process. 30S ribosomal subunit formation was unaffected by the antibiotic. Inhibition of translation and 50S particle formation are equivalent targets for this antibiotic. The effects of telithromycin in S. pneumoniae are compared with those found in Staphylococcus aureus cells. Received: 29 October 2001 / Accepted: 1 February 2002     

The effects of priming treatments using seaweed suspensions on the water sensitivity of barley (Hordeum vulgare L.) caryopses

Two seaweed suspensions, one prepared from Ascophyllum nodosum (Linnaeus) Le Jolis (ANS), another from Laminaria hyperborea (Gunn.) Foslie (LHS), were evaluated for their effects on the water sensitivity of barley (Hordeum vulgare L.) seeds. Priming in either seaweed suspension did not reduce viability. Priming in ANS was beneficial to seeds germinated in elevated water levels. The suspension of A. nodosum reduced the water sensitivity of barley seeds better than either water or polyethylene glycol (PEG) priming treatments. ANS also reduced the microbial population on the seeds by 86%. The hygroscopic properties and the antibiotic effect of the suspension of A. nodosum resulted in greater oxygen availability to the embryo, enabling more seeds to germinate under oxygen deficient conditions.     

Susceptibility of Pseudomonas aeruginosa Urinary Tract Isolates and Influence of Urinary Tract Conditions on Antibiotic Tolerance

Pseudomonas aeruginosa is an opportunistic human pathogen, which can cause severe urinary tract infections (UTIs). Because of the high intrinsic antibiotic resistance of P. aeruginosa and its ability to develop new resistances during antibiotic treatment, these infections are difficult to eradicate. The antibiotic susceptibility of 32 P. aeruginosa isolates from acute and chronic UTIs were analysed under standardized conditions showing 19% multi-drug resistant strains. Furthermore, the antibiotic tolerance of two P. aeruginosa strains to ciprofloxacin and tobramycin was analysed under urinary tract-relevant conditions which considered nutrient composition, biofilm growth, growth phase, and oxygen concentration. These conditions significantly enhance the antibiotic tolerance of P. aeruginosa up to 6000-fold indicating an adaptation of the bacterium to the specific conditions present in the urinary tract. This reversible phenomenon is possibly due to the increased formation of persister cells and is based on iron limitation in artificial urine. The results suggest that the general high antibiotic resistance of P. aeruginosa urinary tract isolates together with the increasing tolerance of P. aeruginosa grown under urinary tract conditions decrease the efficiency of antibiotic treatment of UTIs.     

Antibiotics affect the growth responses of <Emphasis Type="Italic">Daphnia magna</Emphasis> to poor food quality

We tested the hypothesis that exposure to antibiotics alters the growth and reproductive responses of Daphnia magna to changing stoichiometric food quality. To do so, we measured growth and reproduction of differentially P-nourished Daphnia in the presence and absence of sublethal concentrations of antibiotics. We found that exposure to an antibiotic cocktail significantly reduced an index of the microbial load of Daphnia and altered its growth responses to changing dietary P-content. Growth rates of Daphnia consuming the most P-rich and P-poor food increased with antibiotic exposure but were negatively or not affected in animals eating mildly to moderately P-limiting food. Similar effects were found in a subsequent experiment where daphnid neonates were exposed to natural bacterial communities prior to receiving antibiotics and being fed different food C:P ratios. In contrast, antibiotic effects on Daphnia reproduction were either not detected (number and size of broods) or were relatively minor (day of first reproduction). We also found no evidence that gut flora provides defense against pathogenic bacterial infection; instead, infection rates in Daphnia by a bacterial microparasite, Pasteuria ramosa, decreased in animals that had experienced prior antibiotic exposure. Our results demonstrate that antibiotic exposure reduced the microbial load and altered growth rates of an important zooplankton herbivore. Given the mediating role of animal’s food C:P ratio, our results show that interactions between Daphnia and its microbial symbionts vary in strength and nature partly with the host’s nutritional state.     

The ketolide antibiotic ABT-773 is a specific inhibitor of translation and 50S ribosomal subunit formation in Streptococcus pneumoniae cells

ABT-773 is a new 3-keto macrolide antibiotic that has been shown to be very effective against infections by Gram-positive microorganisms. This work examines its inhibitory effects in cells of Streptococcus pneumoniae. ABT-773 caused a proportional decline in cell growth rates and viability with an IC₅₀ of 5 ng/ml. Protein synthesis in these cells was reduced by 50% at an antibiotic concentration of 2.5 ng/ml. This compound was also found to be a very effective inhibitor of the formation of the 50S ribosomal subunit in growing cells. Pulse and chase labeling assays revealed a reduced rate of 50S synthesis in antibiotic-treated cells. At 2 ng/ml, the rate was reduced to 33% of the control synthesis rate. An IC₅₀ of 5 ng/ml was found for the effect on this process, indicating an equal effect of the drug on translation and assembly. Synthesis of the 30S ribosomal subunit was unaffected by this antibiotic. The effects of ABT-773 in S. pneumoniae are compared with those of the related ketolide antibiotic telithromycin in S. pneumoniae and in Staphylococcus aureus. Received: 6 November 2001 / Accepted: 14 December 2001     

The effect of cycling dissolved oxygen tension on the synthesis of the antibiotic difficidin by bacillus subtilis

The antibiotic, difficidin, and its hydroxylated derivative, oxydifficidin, were synthesised by cultures of Bacillus subtilis grown on a complex medium in batch culture at dissolved oxygen tensions (DOT) of 15, 20 and 40% air saturation. During part of the growth phase the DOT was cycled about the control value and the effect on growth and antibiotic production observed. In fermentations with cycling at 15 and 20% DOT the growth yields were lower than for the fermentations done at constant DOT throughout. There appears to be a complex interaction between growth rate and difficidin production rate which led to a reduced specific production rate at 15% DOT as a result of cycling.UCL is the Biotechnology and Biological Sciences Research Council Interdisciplinary Research Centre for Biochemical Engineering and the Council's support is gratefully acknowledged. The authors wish to thank Merck & Co. for provision of the difficidin and oxydifficidin used to calibrate the HPLC assay.     

The influence of dissolved oxygen tension on the synthesis of the antibiotic difficidin by bacillus subtilis

The antibiotic, difficidin, and its hydroxylated derivative oxydifficidin, were synthesized by cultures of Bacillus subtilis grown on a complex medium. Maximum titers of about 200 and 130 mg/L, respectively, were obtained. In fermentations where the dissolved oxygen tension (DOT) was controlled, the maximum specific growth rate was only reduced below 5% air saturation. DOT had little effect on the volumetric rateof synthesis of oxydifficidin but greatly influenced the rate for difficidin, which was reduced at DOT values below 40% air saturation. (c) 1994 John Wiley & Sons, Inc.     

Bioreactor studies on the effect of dissolved oxygen concentrations on growth and differentiation of carrot (Daucus carota L.) cell cultures

A bioreactor control system was used to investigate the effects of two dissolved oxygen concentrations (10% and 100%) on the growth and differentiation of Daucus carota L. cell cultures. The strategy used allowed the dissolved oxygen concentration to be controlled without the need for changing either the agitator speed or the total gas flow rate. During the proliferation phase, reducing oxygen resulted in a lower growth rate and in a delay in sugar uptake kinetics. Nonetheless, varying levels of oxygen were observed to have no effect on the final dry biomass. The higher alcohol dehydrogenase activity obtained under reduced oxygen conditions suggests that proliferating cultures adapted to the hypoxic environment by inducing alcoholic fermentation. Cell differentiation was highly sensitive to reduced oxygen since under this condition, the somatic embryo production was inhibited by about 75%. Sugar uptake and embryo formation were also delayed.Abbreviations ADH alcohol dehydrogenase - 2,4-D 2,4-dichlorophenoxyacetic acid - DO2 dissolved oxygen - SE somatic embryos - Tris tris(hydroxymethyl)-aminoethane     

On the interaction between heparin and some aminoglycoside antibiotics

An interaction between the aminoglycoside antibiotics and heparin wherein charge transfer complexes are formed has been investigated to determine the degree of inhibition of antibacterial function of the antibiotic in the complexed form.Minimum inhibitory concentration (MIC) values have been obtained for the action of the aminoclycoside antibiotics tobramycin, gentamicin, amikacin, kanamycin, and streptomycin, on a sensitive strain ofE. coli. Growth curves ofE. coli determined at concentrations of these antibiotics just below the MIC demonstrated significant lengthening of the lag phase relative to control growth curves generated in the absence of antibiotic. Heparin (1 U ml^–1 and 10 U ml^–1) had no effect on control growth curves; however, particularly at the higher concentration, it reduced the effect on the lag phase produced by the aminoglycoside antibiotics. Thus kanamycin, gentamicin, and tobramycin were most affected, while amikacin and streptomycin were least affected. The rank order of inhibition of antibiotic activity by interaction with heparin was in qualitative agreement with previously published figures for the degree of complexation between antibiotics and heparin.     

Induced tolerance of Sclerotium cepivorum to antibiotics in the presence of onion exudates

The onion white rot pathogen Sclerotium cepivorum was cultured on agar media containing 2% malt extract and one of the antifungal antibiotics, endomycin, griseofulvin, venturicidin and cycloheximide at concentrations that reduced but did not prevent growth of mycelium. When onion seeds or agar discs impregnated with diffusates from onion bulbs were placed on the antibiotic media, radial growth of the fungus was greatly increased, and there was a profuse development of aerial mycelium. Gaseous diffusates from onion tissue and from impregnated agar discs were also effective. On the antibiotic media, tomato, cabbage and radish seeds did not stimulate the growth of S. cepivorum and the onion exudates did not stimulate the growth of four other fungi. This and other evidence is considered to show that the stimulation of growth of S. cepivorum was not caused by any direct effect on the antibiotics but by a tolerance of the fungus to them, which was specifically induced by an exudate from its host plant. The phenomenon may be related to the reported reversal by onion extracts of the inhibitory effects of soil mycostasis on germination of sclerotia of the fungus.     

Selective inhibition of the potato scab pathogen by antagonistic bacteria and substrate influence on antibiotic production

Summary In a long-term field experiment a soybean cover crop and green manure incorporation prevented the build-up of common scab of potato whereas barley, employed in the same manner, increased disease incidence. When soil from these plots was assayed for organisms antagonistic toS. scabies, a bacterium indentified asBacillus subtilis, was found to be predominant. Laboratory tests showed thatS. scabies was more sensitive to the antibiotic produced by this bacterium than most non-pathogenicStreptomyces spp which were tested. The antibiotic was found to be similar to bacitracin and activity was expressed as units bacitracin. Water extracts of greenhouse-grown soybean and barley were compared, at different concentrations, as a substrate for growth and antibiotic production by this bacterium. It was found that on the soybean extract, antibiotic activity, as measured by the standard filter-paper-disc technique, was 2.5 to 3 times greater per unit of bacterial growth than when barley extract was used as the substrate. Similar results were obtained when extracts of partially decomposed tissue were used. It is suggested that when evaluating antagonistic organisms as a possible factor in the behavior of plant pathogens in soil, the relative sensitivity of the pathogen to the antibiotic activities of the antagonists as well as the substrates available to the antagonists should be considered.     

Reduced ROS-mediated antibiotic resistance and its reverting by glucose in Vibrio alginolyticus

Antibiotic-resistant Vibrio alginolyticus poses a big challenge to human health and food safety. It is urgently needed to understand the mechanisms underlying antibiotic resistance to develop effective approaches for the control. Here we explored the metabolic difference between gentamicin-resistant V. alginolyticus (VA-R_GEN) and gentamicin-sensitive V. alginolyticus (VA-S), and found that the reactive oxygen species (ROS) generation was altered. Compared with VA-S, the ROS content in VA-R_GEN was reduced due to the decreased generation and increased breakdown of ROS. The decreased production of ROS was attributed to the decreased central carbon metabolism, which is associated with the resistance to gentamicin. As such a mechanism, we exogenously administrated VA-R_GEN with the glucose that activated the central carbon metabolism and promoted the generation of ROS, but decreased the breakdown of ROS in VA-R_GEN. The gentamicin-mediated killing was increased with the elevation of the ROS level by a synergistic effect between gentamicin and exogenous glucose. The synergistic effect was inhibited by thiourea, a scavenger of ROS. These results reveal a reduced ROS-mediated antibiotic resistance mechanism and its reversal by exogenous glucose.     

Nutritional requirements ofLysobacter lactamgenus for the production of cephabacins

Summary To optimize the fermentation medium for the production of new cephem compounds, cephabacins, by an eubacteriaLysobacter lactamgenus IFO 14,288, the effects of medium components on cephabacin production were investigated. Supplementation of glucose as a sole carbon source in liquid media was the best for the antibiotic production as well as for the cell growth. Casamino acid was the best nitrogen source for antibiotic biosynthesis and cell growth among nitrogen sources tested, and this strain could utilize sulfate or thiosulfate as a sulfur source. No significant effects of growth factors (vitamins) on the antibiotic production and cell growth were observed, but ferrous, magnesium and nickel ions slightly enhanced the cephabacin production.     

Influence of dissolved oxygen concentration on growth,mitochondrial function and antibody production of hybridoma cells in batch culture

The effects of dissolved oxygen concentration on hybridoma cell growth, metabolism, and antibody production were studied. A mouse hybridoma cell line producing an IgG1 directed at a consensus -interferon was grown in batch cultures in a 5 dm³ stirred bioreactor at dissolved oxygen (DO) concentrations of 5, 30, 90 and 95% or air saturation. High oxygen tension (95% of air saturation) reduced specific growth rate without affecting cell viability. At lower dissolved oxygen levels, specific growth rates were approximately independent of DO, although changes in mitochondrial function and antibody production were observed. Flow cytometry assays of a fluorescent mitochondria-specific marker (Rhodamine 123) show significant single-cell heterogeneities during late exponential growth and greater average fluorescence in cultures grown at 95% DO. The quantity of cell-surface immunoglobulin, measured by an immunofluorescent flow cytometric technique, was the same at high (95%) and low (5%) dissolved oxygen concentrations. Myeloma cells of the type used in constructing the above hybridoma line were much less sensitive to dissolved oxygen level. Specific respiration rate, pyruvate utilization rate, cytochrome oxidase activity, and succinate-cytochrome c oxidoreductase activity were significantly greater (62–116%) for the hybridoma cells than for the myeloma cells in T-flask cultures.     

Chloramphenicol inhibition of Pythium ultimum and Rhodotorula glutinis

Summary The growth of Rhodotorula glutinis is inhibited by both D-threo chloramphenicol and an L-threo isomer of chloramphenicol (lacking the dichloroacetyl group), causing an increase in the mean generation time, in a variety of media, approximately proportional to the concentration of antibiotic. The antibiotic is not removed from the growth medium in any quantity during this inhibition of growth. The oxygen uptakes of normal and chloramphenicol-grown cells of R. glutinis are similar when expressed on a dry weight basis. The oxygen uptake of normal and L-threo isomer-grown cells is strongly inhibited by antimycin A, whereas D-threo chloramphenicol-grown cells are unaffected. There was no evidence to suggest that any uncoupling of phosphorylation occurred with either isomer. Pythium ultimum mycelium also showed similar oxygen uptakes per unit dry weight whether grown in the presence or absence of D-threo chloramphenicol. The D-threo chloramphenicol-grown mycelium was also insensitive to antimycin A in contrast to the normal mycelium which was strongly inhibited. P. ultimum grows slowly in the presence of 100 g/ml D-threo chloramphenicol in a glucose salts medium, but is completely inhibited by a similar concentration in a glycerol salts medium. The L-threo isomer does not inhibit the growth of P. ultimum.The mitochondria of Rhodotorula glutinis show a progressive disorganization when grown in the presence of increasing concentrations of D-threo chloramphenicol up to 1000 g/ml. There is an associated over synthesis of cell wall material in the higher concentrations of the antibiotic. The L-threo isomer produces no obvious fine structural abnormalities even at concentrations of 1000 g/ml.