Effect of Nystatin on the Metabolism of Xylitol and Xylose by Pachysolen tannophilus

Ethanol production from xylitol by resting cells of Pachysolen tannophilus was increased 40-fold in the presence of nystatin, amphotericin B, and filipin, a group of antifungal agents that alter the permeability of the plasma membrane. Furthermore, these agents had little or no effect on ethanol formation from xylitol or xylose by the cell extract. During xylose metabolism, nystatin caused the intracellular xylitol to leak out into the medium at a 23-fold-faster rate but did not affect overall xylose utilization and CO₂ evolution. These observations explain the rate of xylitol utilization by cell extract being higher than that by whole cells (J. Xu and K. B. Taylor, Appl. Environ. Microbiol. 59:231-235, 1993) as well as the relative inability of P. tannophilus to utilize xylitol to support significant ethanol production and cell growth.     

A culture and biochemical assay system for Trypanosoma lewisi

Trypanosoma lewisi was cultivated as forms which appeared to be physiologically similar to those found in vivo. The medium consisted of 1.0 g peptone, 1.0 g glucose, 10 ml rat serum, 10,000 units penicillin G, 10,000 μg streptomycin and 90 ml Hank's Balanced Salt Solution. It was supplemented with 8.0 × 10⁸ rat erythrocytes per milliliter. In the complete medium trypanosomes multiplied for 48–72 hr. Cultured forms were lethal to newborn rats and infective to adults.Adsorbed early immune serum inhibited the growth of the trypanosomes in vitro and the percentage of reproductives declined from 66 to 45%. The cultured trypanosomes were also susceptible to both trypanocidal antibodies.     

Effect of Penicillin-Streptomycin and Other Antibiotics on Melanogenic Parameters in Cultured B16/F10 Melanoma Cells

Penicillin and streptomycin, the most widely used antibiotics in mammalian cell cultures, caused a moderate stimulation in dopa oxidase and tyrosine hydroxylase activities, but a slight inactivation in the dopachrome tautomerase activity of B16/F10 melanoma cells at the routine concentration (100 units/ml penicillin and 100 μg/ml streptomycin) used for preventing bacterial growth in cultured animal cells. At these concentrations, tyrosinase activities and melanin content augmented with time during the first 24–48 hr. The opposite effect acted on cell viability. After withdrawal of the antibiotics from the culture medium, the recovery of melanogenic parameters to normal values was fully reached after few hours (around 10), and it was already noticeable as soon as 4 hr after removal. Other antibiotics used in cell culture, like kanamycin, gentamicin, and the antimicotic nystatin, exerted similar low effects at the recommended concentrations, always lower than two-fold and thus lower than those reported for amphotericin B. Taking into account these relatively low effects, and the high risk of contamination of mammalian cells culture without antibiotics, penicillin and streptomycin may still be routinely used in experiments leading to explore the melanogenic activity of malignant melanocytes in culture, unless very precise studies and strict conditions were needed.     

The use of antibiotics in the culture of non-sterile plant protoplasts

Summary The use of antibiotics to control infections in cultures of protoplasts of leaf mesophyll cells has been examined. The antifungal agents nystatin and amphotericin B were non-toxic to protoplasts at concentrations that controlled fungal growth (25 units and 2.5 g/ml respectively). Of the antibacterial agents examined, only carbenicillin and, to a lesser extent, gentamicin were active against the bacteria usually encountered whilst still permitting normal protoplast metabolism and regeneration. The most satisfactory control of contaminating microorganisms was obtained with a combination of nystatin (25 units/ml) or amphotericin B (2.5 g/ml) and carbenicillin (250 g/ml).     

Responses of Pyrodinium bahamense var. compressum and associated cultivable bacteria to antibiotic treatment

Pyrodinium bahamense var. compressum is a toxic dinoflagellate that produces paralytic shellfish poisoning toxins. It is responsible for the chronic toxicity of shellfish in many coastal areas of the Philippines and other South East Asian countries. For the purpose of using antibiotic treatment to possibly generate axenic cultures and understand their growth requirements, the antibiotic tolerances of two local P. bahamense var. compressum isolates and their associated bacteria were determined. The antibacterial compounds ampicillin, chloramphenicol, ciprofloxacin, kanamycin, neomycin, penicillin G, and streptomycin were tested, as well as two antifungals, amphotericin B, and nystatin. All except chloramphenicol, amphotericin B, and nystatin were generally well-tolerated. An antibiotic mixture composed of ciprofloxacin, kanamycin, neomycin, and streptomycin completely inhibited the cultivable bacteria associated with P. bahamense var. compressum MZRVA, although epifluorescence microscopy revealed that residual bacteria were still present. From long-term tests with this antibiotic mix, it was observed that survival of isolate MZRVA post-antibiotic treatment appeared to be associated with re-growth of heterotrophic bacteria and that excess vitamins could potentially enhance dinoflagellate survival. These results suggest that the associated heterotrophic bacterial populations help support the growth of P. bahamense var. compressum MZRVA in culture and possibly in nature. This is the first report on the growth responses of P. bahamense var. compressum and associated cultivable bacteria to a variety of single and combinations of antibiotics.     

Steroid interference with antifungal activity of polyene antibiotics

Wide differences exist among the polyene antibiotics, nystatin, rimocidin, filipin, pimaricin, and amphotericin B, with reference to steroid interference with their antifungal activities against Candida albicans. Of the numerous steroids tested, ergosterol was the only one which effectively antagonized the antifungal activity of all five polyene antibiotics. The antifungal activities of nystatin and amphotericin B were the least subject to vitiation by the addition of steroids other than ergosterol, and those of filipin, rimocidin, and pimaricin were the most sensitive to interference. Attempts to delineate the structural requirements of steroids possessing polyene-neutralizing activity in growing cultures of C. albicans are discussed. The ultraviolet absorbance of certain antibiotic steroid combinations was also studied.     

Development of a novel technique for axenic isolation and culture of thraustochytrids from New Zealand marine environments

Aims: To maintain axenic cultures of commercially important thraustochytrids, a novel procedure was developed for the isolation of zoospores and sporangium from heterotrophic seawater samples and axenic culture on solid media. Methods and Results: Thraustochytrid cultures were isolated from Whangapoua Harbour in North East New Zealand and subjected to two antibiotic and antifungal treatment regimes designed to eliminate bacteria and fungi. Antibiotic trial 1 was designed to determine the appropriate combination of antibiotics (including streptomycin/penicillin, ampicillin, rifampicin, nalidixic acid, tetracycline, gentamicin and the antifungal agent nystatin). Antibiotic trial 2 determined the optimal dosing frequency and concentration of the antibiotics, and antifungal found to be the most promising in trial 1. Axenic cultures were then spread plated onto nutrient agar containing the optimal antibiotic cocktail, and pure thraustochytrid colonies were purified on solid media using standard microbiological techniques. Conclusions: Removal of bacteria and fungi was best accomplished using a mixture of three antibiotics and one antifungal; rifampicin (300 mg l^?1), streptomycin/penicillin (25 mg l^?1) and nystatin (10 mg l^?1) were incorporated in seawater samples and incorporated into cultures every 24 h for a minimum of 2 days. Significance and Impact of the Study: The axenic isolation and culture of marine thraustochytrids from a marine habitat in New Zealand have significant implications for the biotechnological development of these potentially valuable protists. This method has global significance as it is reasonable to assume it could be used throughout the world to obtain axenic thraustochytrid cultures.     

Alginate Oligosaccharides Inhibit Fungal Cell Growth and Potentiate the Activity of Antifungals against Candida and Aspergillus spp

The oligosaccharide OligoG, an alginate derived from seaweed, has been shown to have anti-bacterial and anti-biofilm properties and potentiates the activity of selected antibiotics against multi-drug resistant bacteria. The ability of OligoG to perturb fungal growth and potentiate conventional antifungal agents was evaluated using a range of pathogenic fungal strains. Candida (n = 11) and Aspergillus (n = 3) spp. were tested using germ tube assays, LIVE/DEAD staining, scanning electron microscopy (SEM), atomic force microscopy (AFM) and high-throughput minimum inhibition concentration assays (MICs). In general, the strains tested showed a significant dose-dependent reduction in cell growth at ≥6% OligoG as measured by optical density (OD₆₀₀; P<0.05). OligoG (>0.5%) also showed a significant inhibitory effect on hyphal growth in germ tube assays, although strain-dependent variations in efficacy were observed (P<0.05). SEM and AFM both showed that OligoG (≥2%) markedly disrupted fungal biofilm formation, both alone, and in combination with fluconazole. Cell surface roughness was also significantly increased by the combination treatment (P<0.001). High-throughput robotic MIC screening demonstrated the potentiating effects of OligoG (2, 6, 10%) with nystatin, amphotericin B, fluconazole, miconazole, voriconazole or terbinafine with the test strains. Potentiating effects were observed for the Aspergillus strains with all six antifungal agents, with an up to 16-fold (nystatin) reduction in MIC. Similarly, all the Candida spp. showed potentiation with nystatin (up to 16-fold) and fluconazole (up to 8-fold). These findings demonstrate the antifungal properties of OligoG and suggest a potential role in the management of fungal infections and possible reduction of antifungal toxicity.     

New Combination of Antibiotics for Treatment of Contaminated Specimens for Viral Studies

A study of a new combination of antibiotics (sodium oxacillin, colistin sulfate, and amphotericin B) has shown that 30 μg/ml of each in tissue culture maintenance medium can inhibit a group of the commonest bacterial and fungal contaminants while causing no observable cytopathology in rhesus monkey kidney, HeLa, or human amnion tissue cells. In addition, there was no inhibition of the titers of poliovirus, echovirus, coxsackievirus, and adenovirus in the three cell lines. Ten duplicate fecal samples, which remained contaminated with fungal or Pseudomonas organisms after treatment with penicillin and streptomycin, were treated with the new antibiotic combination. Contaminants were controlled in each, and a variety of viruses was recovered.     

Intracellular Loss of Potassium in Candida albicans After Exposure to Polyene Antifungal Antibiotics

Eleven antifungal antibiotics, representing three broad macrolide classes, were studied in Candida albicans for their effect on growth and on the fate of intracellular K⁺. Marked differences were observed among these antibiotics between their growth-inhibitory activities and their adverse effects on the integrity of the cellular membrane as evidenced by loss of K⁺. Antibiotics most active in inhibiting growth of C. albicans were amphotericin B, trichomycin, candidin, candicidin (all heptaenes), and nystatin (a tetraene). In addition to those antibiotics, filipin and fungichromin also caused rapid leakage of K⁺ from yeast cells. Interestingly, fungichromin was the least active of the 11 antibiotics in inhibiting growth. Concentrations of rimocidin 10 times as great as those required for growth inhibition caused only a slight loss in intracellular K⁺ after 60 min.     

Production of Axenic Gonyaulax Cultures by Treatment with Antibiotics

The effects of amphotericin B, chloramphenicol, dihydrostreptomycin sulfate, neomycin sulfate, polymyxin B sulfate, potassium penicillin G, and streptomycin sulfate (used singularly and in various combinations at different concentrations) on the growth and development of four marine dinoflagellates of the genus Gonyaulax and associated bacteria were studied. The combination of amphotericin B, dihydrostreptomycin, neomycin, and penicillin G was highly effective in eliminating bacteria and fungi without reducing dinoflagellate growth and provided a useful method for obtaining axenic cultures of two Gonyaulax species, G. catenella and G. excavata.     

Penicillin production by mutants ofPenicillium chrysogenum resistant to polyene macrolide antibiotics

Summary Polyene-resistant mutants ofPenicillium chrysogenum Wis. 54–1255 have been obtained by stepwise selection in increasing concentrations of polyene antibiotics. From the parent strain, sensitive to 10 g/ml of polyene antibiotics, mutants resistant to fungimycin (1.3 mg/ml), amphotericin B (0. 5 mg/ml), or nystatin (167 g//ml) were obtained. Their penicillin production is different from that of the parent strain and in particular some of the fungimycin-resistant mutants produce higher levels of penicillin.     

Effect of terrilytin on antifungal antibiotic activity]

The antifungal activity of terrilitine, an enzymatic preparation of microbial origin and its effect on the activity of antifungal polyenic antibiotics and griseofulvine were studied in vitro. It was found with the method of serial dilutions in Sabourand's liquid medium that terrilitine was active against C. albicans and certain dermatophytes. In combination with amphotericin B, amphoglucamine, mycoheptine, levorin, nystatin or griseofulvin it increased the activity of these antibiotics 2-16 times.     

Sensitization of Candida albicans biofilms to various antifungal drugs by cyclosporine A

Background

Biofilms formed by Candida albicans are resistant towards most of the available antifungal drugs. Therefore, infections associated with Candida biofilms are considered as a threat to immunocompromised patients. Combinatorial drug therapy may be a good strategy to combat C. albicans biofilms.

Methods

Combinations of five antifungal drugs- fluconazole (FLC), voriconazole (VOR), caspofungin (CSP), amphotericin B (AmB) and nystatin (NYT) with cyclosporine A (CSA) were tested in vitro against planktonic and biofilm growth of C. albicans. Standard broth micro dilution method was used to study planktonic growth, while biofilms were studied in an in vitro biofilm model. A chequerboard format was used to determine fractional inhibitory concentration indices (FICI) of combination effects. Biofilm growth was analyzed using XTT-metabolic assay.

Results

MICs of various antifungal drugs for planktonic growth of C. albicans were lowered in combination with CSA by 2 to 16 fold. Activity against biofilm development with FIC indices of 0.26, 0.28, 0.31 and 0.25 indicated synergistic interactions between FLC-CSA, VOR-CSA, CSP-CSA and AmB-CSA, respectively. Increase in efficacy of the drugs FLC, VOR and CSP against mature biofilms after addition of 62.5 μg/ml of CSA was evident with FIC indices 0.06, 0.14 and 0.37, respectively.

Conclusions

The combinations with CSA resulted in increased susceptibility of biofilms to antifungal drugs. Combination of antifungal drugs with CSA would be an effective prophylactic and therapeutic strategy against biofilm associated C. albicans infections.     

Use of Antibiotics in the Preparation of Canine Kidney Tissue Culture Vaccines to Eliminate Leptospiral Infection Hazards

The potential leptospiral infection hazard in the use of vaccines prepared from canine kidney monolayer cultures was studied. Cell cultures were prepared from kidneys of dogs experimentally infected with Leptospira serotype canicola. Viable leptospires were found in kidney cell suspensions at the time of seeding, surviving trypsinization either at room temperature for approximately 2 hr or overnight at 4 C, even in the presence of antibiotics. In tissue cultures maintained without antibiotics, leptospires were cultured up to the time of involution of cells at 25 to 34 days of incubation. Cytopathogenic effects of leptospires on cultured kidney cells were not noted; neither was growth of leptospires remarkable. Generally, the leptospire culture titer decreased to 10^-4 or 10^-5 at the 4th hr or 1st day of incubation to 10^-1 or negative by the 30th or 34th day of incubation. The addition of either a combination of penicillin (100 units per ml) plus streptomycin (100 μg/ml) or polymyxin B (50 units per ml) plus dihydrostreptomycin (100 μg/ml) to seeding cell suspensions resulted in the elimination of viable leptospires by the 4th hr of incubation. From cell cultures treated with neomycin (100 μg/ml) or chloramphenicol (100 μg/ml), leptospires were recovered, respectively, after 24 and 48 hr, but not thereafter. It was apparent that antibiotics, particularly the combination of polymyxin B and dihydrostreptomycin, could be effectively used to eliminate leptospires in tissue culture. Other antibiotics with known antileptospiral activities probably would be effective also. If antibiotics are not used in canine kidney tissue culture employed for viral vaccine preparations, rigid testing for the presence of leptospires in donor dogs and tissue-culture vaccine is indicated.     

Nature of Penicillin-Induced Growth Inhibition of Mycoplasma neurolyticum

When penicillin was added to cultures of Mycoplasma neurolyticum in amounts up to 1,000 units per ml, lag time and generation time were increased and the total population was reduced in proportion to the antibiotic concentration. Although growth suppression by penicillin was complete, the death rate was slow and linear over periods up to 12 days. Growth after induced lag was due to a decay in penicillin activity and was not the result of mutant selection. However, repeated transfer in media which contained increasing concentrations of penicillin resulted in normal growth of M. neurolyticum at penicillin levels as high as 1,000 units per ml. Penicillinase did not play a role in recovery from penicillin-induced lag, and the inactive penicillin molecule did not prevent normal growth of M. neurolyticum. Removal of penicillin from the medium by washing or penicillinase during the induced lag was immediately followed by normal growth of the organism. These results suggest a reversible antibiotic function for penicillin which prevents multiplication of the organism by means unrelated to cell wall formation.     

New Nystatin-Related Antifungal Polyene Macrolides with Altered Polyol Region Generated via Biosynthetic Engineering of Streptomyces noursei

Polyene macrolide antibiotics, including nystatin and amphotericin B, possess fungicidal activity and are being used as antifungal agents to treat both superficial and invasive fungal infections. Due to their toxicity, however, their clinical applications are relatively limited, and new-generation polyene macrolides with an improved therapeutic index are highly desirable. We subjected the polyol region of the heptaene nystatin analogue S44HP to biosynthetic engineering designed to remove and introduce hydroxyl groups in the C-9-C-10 region. This modification strategy involved inactivation of the P450 monooxygenase NysL and the dehydratase domain in module 15 (DH15) of the nystatin polyketide synthase. Subsequently, these modifications were combined with replacement of the exocyclic C-16 carboxyl with the methyl group through inactivation of the P450 monooxygenase NysN. Four new polyene macrolides with up to three chemical modifications were generated, produced at relatively high yields (up to 0.51 g/liter), purified, structurally characterized, and subjected to in vitro assays for antifungal and hemolytic activities. Introduction of a C-9 hydroxyl by DH15 inactivation also blocked NysL-catalyzed C-10 hydroxylation, and these modifications caused a drastic decrease in both antifungal and hemolytic activities of the resulting analogues. In contrast, single removal of the C-10 hydroxyl group by NysL inactivation had only a marginal effect on these activities. Results from the extended antifungal assays strongly suggested that the 9-hydroxy-10-deoxy S44HP analogues became fungistatic rather than fungicidal antibiotics.     

Use of antibiotics in selecting a nystatin producer]

The lethal and mutagenic effect of streptomycin and nystatin on Act. noursei, strain 408 producing nystatin was studied. The survival of the spores of strain 408 on the medium with streptomycin decreased with an increase in the antibiotic concentration. Streptomycin had a selective effect on the nystatin-producing organism decreasing the frequency of morphologically changed and low active variants and revealing highly active and antibiotic stable variants. The survival of the spores of strain 408 on the medium with nystatin (20,000 units/ml) amounted to 35 per cent. Nystatin had an inhibitory effect on the organism producing it which was evident from delayed growth and significant modification variation of the colonies, as well as from a marked increase in the number of the variants characterized by low antibiotic production.     

Production of hydrolases by lactic acid bacteria and bifidobacteria and their antibiotic resistance

It was demonstrated that bifidobacteria and lactic acid bacteria B. adolescentis and Lactobacillus sp. synthesized extracellular enzymes cleaving glycoside bonds in the molecules of dextran, pectic acid, and soluble starch. The maximal production of extracellular β-galactosidase by B. adolescentis 91-BIM and 94-BIM at a rate of 0.08 and 0.03 U/mg per h was observed during the exponential growth phase at 5 and 12 h of cultivation, respectively. The cultures of bifidobacteria retained 60–70% of β-galactosidase and α-amylase activities after six months of storage. The bifidobacterium strains studied were resistant to amphotericin and aminoglycosides (gentamicin, kanamycin, and netromycin). The lactam antibiotics (ampicillin, benzylpenicillin, bicillin 3, bicillin 5, and carbenicillin), the preparations inhibiting protein synthesis at the level of ribosomes (lincomycin), RNA polymerase inhibitors (rifampin), cephalosporin, and Maxipime inhibited the growth of bifidobacteria. Rifampin, erythromycin, amphotericin, Maxipime, Fortum, doxycycline, levomycetin, streptomycin, and the aminoglycosides netromycin, gentamicin, and kanamycin did not have an effect on the growth of Lactobacillus sp., whereas semisynthetic derivatives of penicillin, carbenicillin and ampicillin, inhibited its growth as well as Oxamp and lincomycin. The lactam antibiotics benzylpenicillin, bicillin 3, and bicillin 5 inhibited the growth of lactic acid bacilli by 30–90%.     

Elimination of systemic contamination in explant and protoplast cultures of rubber (Hevea brasiliensis Muell. Arg.)

Ten systemic microorganisms (bacteria and yeasts) were isolated from stem sections of ex vitro grown rubber plants. Antibiotics were screened for their efficacy against these microorganisms and for possible tissue phytotoxicity. Erythromycin, nystatin and streptomycin at bactericidal levels were asymptomatic in relation to tissue stress nor was callusing capacity reduced. Contamination of stem explants as used for callus initiation, was reduced from 95.8 to 43.8% by the incorporation of these three antibiotics, at concentrations of 32.0, 16.0, 16.0 g/ml respectively. Contamination was eliminated from protoplast cultures by these antibiotics, at half strength, in the plasmolysis and enzyme solutions. Rubber protoplast survival was promoted by these antibiotics.Abbreviations WPM woody plant medium (Lloyd and McCown 1981) - 24D 2,4-dichlorophenoxyacetic acid - KN kinetin - WPMDKN woody plant basal medium supplemented with 2.0 mg/l 24D and 0.5 mg/l KN - MS Murashige and Skoog (1962) - ery. erythromycin - ny. nystatin - strep. streptomycin sulphate - tet. tetracycline (all Sigma) - FDA fluorescein diacetate - MIC minimum inhibitory concentration