Effect of amphotericin B on the sterol composition of Kluyveromyces bulgaricus and Kluyveromyces lactis

The degree of sensitivity of the yeasts Kluyveromyces bulgaricus and K. lactis to amphotericin B is linked to a difference in the sterol composition of their membranes. No direct proportionality was found between sensitivity and the quantity of sterols present. At sublethal doses, amphotericin B perturbed sterol synthesis, resulting in ergosterol precursor accumulation. An ergosterol pathway is proposed for Kluyveromyces.     

Study of the resistance of Candida guilliermondii to polyene antibiotics

250 Candida guilliermondii strains resistant to the polyene antibiotics nystatin, levorin and amphotericin B were obtained using UV irradiation. When the mutant strains became resistant to one of the polyene antibiotics, their resistance to the other ones changed. Phenotypic analysis showed that the resistance of the strains to polyene antibiotics did not make them susceptible to a rise in osmotic pressure and to a change of the temperature of incubation. Some of the polyene-resistant strains were stained in a medium with methylene blue. Analysis of the sterol composition in the mutants by UV spectroscopy showed that the resistance to polyene antibiotics sometimes involved changes in the sterol composition. Two new UV spectrum types were recorded for the sterols of the mutant strains; they differed from the UV spectrum for the sterols of the parent sensitive strain.     

Decreased susceptibility to antifungals in respiratory-deficient<Emphasis Type="Italic">Kluyveromyces lactis</Emphasis> mutants

Decreased susceptibility of K. lactis mutants impaired in the function of cytochrome c, cytochrome c1 and cytochrome-c oxidase to fluconazole, bifonazole and amphotericin B in comparison with the isogenic wild-type strain was observed. Flow cytometry with rhodamine 6G did not show any changes in the accumulation of the dye in the mutant cells compared with the corresponding wild-type strain. Sterol analysis showed similar overall amount of sterols in both wild-type and mutant cells. Taking into account the increased amphotericin B resistance and significantly diminished susceptibility of mutant cells to lyticase digestion, the cell wall structure and/or composition may probably be responsible for the observed changes in the susceptibility of mutants to the antifungal compounds used.     

Sterol affinity of Candida albicans cells resistant to polyene antibiotics]

The affinity levels of sterols in the sensitive and resistant cultures of C. albicans for polyenic antibiotics were studied comparatively. The affinity level was determined by liberation of potassium under the effect of the antibiotic participating in interaction with the sterol. The protective effect of the sterol suspended in solution and included into the composition of the liposomes from egg lecithin was studied. It was found that the sterols of the resistant cultures of C. albicans had the same (or even somewhat higher) affinity to amphotericin B as those from the sensitive cultures. The data indicate that resistance of the strains studied is not based on the loss of the sterol capacity for binding polyenic antibiotics.     

Effect of altered sterol composition on the salt tolerance of Zygosaccharomyces rouxii

To obtain mutants containing altered sterol composition and sterol contents, nystatin-resistant mutants were isolated in Zygosaccharomyces rouxii. Two of nine mutants isolated were resistant toward 20 μg of nystatin per ml, while the other seven showed resistance toward 50 μg per ml. However, the seven mutants could not grow at 35°C. TN5, a mutant of the first group, showed the same sterol composition as the wild type strain, with ergosterol and zymosterol as major sterols, whereas it contained free sterols about 70% of those of the wild type. TN1 and TN3, representative mutants of the second group, had altered sterol compositions, containing three major sterols, zymosterol, ergosta-5,7,24-trienol, and an unidentified sterol. TN1 and TN3 could not grow in YPD medium containing more than 8% NaCl, whereas TN5 grew in the same medium containing 15% NaCl after a longer lag phase than the wild type strain. TN1 and TN3, in particular TN3, when incubated in YPD medium containing 15% NaCl, leaked significant amounts of glycerol. Protoplasts of these mutants were more labile than those of the wild-type cells. These facts suggest that the amount and kind of ergosterol in the cell membrane might be concerned with the salt tolerance of Z. rouxii.     

Growth characteristics and polyene sensitivity of a fatty acid auxotroph of Candida albicans.

A fatty acid auxotroph of Candida albicans 6406, designated A' 44 and originally isolated as an oleic acid requiring strain, has been shown to be a delta9 desaturase mutant. Although lacking this step in fatty acid biosynthesis, it appears to retain the ability to desaturate monounsaturated fatty acids. The polyene sensitivity of the organism grown on different fatty acid supplements varied between 0-08 +/- 0-02 and 1-20 +/- 0-30 microgram amphotericin B methyl ester ml-1 for exponentially growing cells. In spite of this variation, the sterol composition remained fairly constant, the major differences lying in fatty acid composition. Stationary-phase cells were more resistant to amphotericin B methyl ester, although again this change was not associated with changes in sterol content. The organism was most resistant when grown in the presence of oleic or linoleic acid. Protoplasts derived from resistant organisms grown on these two fatty acids were also resistant, indicating that the structure of the cell wall was less important than that of the plasma membrane in determining polyene sensitivity under these conditions.     

Properties of a Candida albicans strain possessing an increased sensitivity to polyene antibiotics]

Characteristics of a mutant of the yeast-like fungus Candida albicans with increased sensitivity to amphotericin B, levorin and nystatin is presented. Increased sensitivity to the polyens in the isolate must be associated with changes in the cell wall and/or with decreased total viability of the strain. The following factors were in favour of this: presence of significant amounts of pseudomycelial cells with thinner cell walls as compared to the yeast cells in the population of the mutant strain; a higher rate of potassium liberation from the cells of the mutant strain in the presence of amphotericin B; a lower growth rate of the mutant strain on solid and liquid media; an increased death rate of the cells in the intact culture of the mutant strain as compared to the initial strain; absence of changes in the absorption spectrum of sterols isolated from the cells of the mutant strain as compared to the initial culture.     

Yeast mutants blocked in removing the methyl group of lanosterol at C-14. Separation of sterols by high-pressure liquid chromatography.

Sterols of a nystatin resistant mutant of the wild type parent of Saccharomyces cerevisiae were separated by a newly developed procedure involving high-pressure liquid chromatography and were identified. The mutant contained larger amounts of squalene and lanosterol (I) than the wild type, as well as 4,14-dimethylcholesta-8,24-dien-3beta-ol (II), 4,14-dimethylergosta-8,24(28)-dien-3beta-ol (III), and 14-methylergosta-8,24(28)-dien-3beta-ol (IV), which were not hitherto found in yeast. These results indicated a block in removal of the methyl group at C-14 of lanosterol. An ergosterol requiring derivative of the mutant which carried in addition a mutation in heme biosynthesis had the same sterols as the parent, but at one-third the concentration. The low level of sterols may be due to a requirement for a heme or cytochrome in oxygenation reactions between lanosterol and ergosterol.     

Ergosterol biosynthesis pathway in Aspergillus fumigatus

The sterol composition of Aspergillus fumigatus for the biosynthesis of ergosterol is of interest since this pathway is the target for many antifungal drugs in clinical use. The sterol composition of this fungal species was analyzed by gas chromatography-mass spectrometry in different strains (susceptible and resistant to azole drugs). Also, sterols were analyzed in several A. fumigatus mutant strains deficient in enzymatic steps of the ergosterol biosynthesis pathway such as 14-alpha sterol demethylases (Cyp51A and Cyp51B) and C-5 sterol desaturases (Erg3A, Erg3B and Erg3C). All sterols identified from azole-resistant A. fumigatus strains were qualitatively and quantitatively similar to the susceptible strain (CM-237). However, sterol composition of mutants strains were different depending on the lacking enzyme. The analysis of the sterol composition in these mutant strains led to a better understanding of the ergosterol biosynthesis pathway in this important fungus.     

The effects of amphotericin B on the interaction of Candida albicans with fibroblast cultures

Sublethal amounts of amphotericin B inhibited the interaction of Candida albicans with cultured fibroblasts. Different C. albicans clinical isolates exhibited varying degrees of sensitivity to the drug, but those isolates that were the most infective in control cultures appeared to be the most resistant to amphotericin B mediated infection inhibition. Although amphotericin B inhibited germ tube formation at the sublethal concentration of 0.3 microgram/mL, lower concentrations inhibited infection without preventing germination. The extent of this latter activity varied with the isolate and amphotericin B concentration and appeared to be related to sublethal effects on germinated yeasts. While amphotericin B effectively prevented new fibroblast infection, it did not dissociate those yeasts which had established an infection before its addition.     

Lipid composition and effect of amphotericin B on yeast cells of Paracoccidioides brasiliensis

Yeast cells of Paracoccidioides brasiliensis strain SN, were obtained for analysis of lipid composition. Total lipids, phospholipids, sterols, and qualitative sterols and fatty acid composition were determined. Such analysis were made on cells cultured in the presence or absence of amphotericin B and on non proliferating cell suspensions exposed to the antibiotic. Marked alterations in lipid contents were observed in this different conditions. The major alterations were the reduction of total lipids, sterols, and palmitoleic acid in both, proliferating and non proliferating antibiotic exposed cells. The effect of amphotericin B was evaluated also in terms of viability and release of intracellular substances, at different times of exposure. The minimal inhibitory concentration (MIC) determined for that strain of this fungus was 0.2 g/mL.     

Regulation of cellulases and xylanases from a derepressed mutant of Cellulomonas flavigena growing on sugar-cane bagasse in continuous culture

When the wild type Cellulomonas flavigena was grown on glycerol, xylose or cellobiose, it produced basal levels of carboxymethyl-cellulase (CMCase), filter-paperase (FPase) and xylanase activities. By comparison, a catabolic derepressed mutant strain of the same organism produced markedly higher levels of these enzymes when grown on the same carbon sources. Sugar-cane bagasse induced both the wild type and the mutant strain to produce three- to eight-time higher levels of FPase and xylanase than was observed with xylose or cellobiose. Continuous culture was used to determine the minimal cellobiose or glucose concentrations that repress the enzyme synthesis in both strains. 2.5 g l(-1) glucose repressed FPase and xylanases from wild type, while 1.6 times more glucose was needed to repress the same activities in the PN-120 strain. In the same way, twofold more cellobiose was needed to reduce by 75% the CMCase and xylanase activities in the mutant compared to the wild type. The FPase in the presence of 4 g l(-1) cellobiose did not change in the same strain. Therefore, its derepressed and feedback resistant characters of PN-120 mutant are evident. On the other hand, isoelectrofocused crude extracts of mutant and wild strains induced by sugar-cane bagasse, did not show differences in protein patterns, however, the Schiffs staining was more intense in the PN-120 than in the wild strain. These results point out that the mutational treatment did not apparently change the extracellular proteins from mutant PN-120 and this could affect their regulation sites, since derepressed and feed-back resistant enzymes may be produced.     

Effect of amphotericin B on the lipids of five different strains ofCryptococcus neoformans

Cells of five strains ofCryptococcus neoformans were obtained for partial analysis of lipid composition. Quantitative analysis of lipids and sterols were completed, as well as qualitative analysis of sterols by thin-layer chromatography and by the ultraviolet spectra. Such determinations were made on cells cultured in the absence and presence of amphotericin B at sub-MIC (minimal inhibitory concentration) levels. Marked alterations of the lipid and sterol contents were observed in the amphotericin B — treated cells. Moreover, ergosterol disappeared in these antibiotic-exposed cells. It is concluded that amphotericin B altered the lipid profiles, especially sterols ofC. neoformans.     

Rates of amphotericin B and filipin association with sterols. A study of changes in sterol structure and phospholipid composition of vesicles

The influence of structural modifications in sterols and phospholipids on the rate of polyene antibiotic-sterol interaction was studied. For filipin and amphotericin B association with sterols in vesicles, a preferential interaction was found with sterols whose side chain length is close to that of cholesterol. Introduction of trans double bonds into the sterol side chain did not alter the rate of interaction in vesicles. The delta 7-bond of the sterol appears to be of critical importance in amphotericin B-sterol interaction, whereas the delta 5-bond is not essential. These observations are relevant to the well-known effects of amphotericin B on cell membranes containing ergosterol compared with those containing cholesterol. The dependence of the rates of sterol-polyene antibiotic interaction on the phospholipid composition of the vesicles indicates that phospholipid vesicles may be an inadequate model for reaching a comprehensive understanding of the effects exerted on biological membranes by these agents.     

Lipid composition of aminopterin-resistant and sensitive strains of Streptococcus pneumoniae. Effect of aminopterin inhibition.

The polar lipids of Streptococcus pneumoniae wild type and aminopterin-resistant strains were analysed. The membrane contained only two acid phospholipids, phosphatidylglycerol and cardiolipin, and a large amount of two glycolipids, glucosyldiglyceride and galactosylglucosyldiglyceride. The unsaturated acyl chains ranged from 58 to 87% of total fatty acids, depending on the strain and on growth conditions. No relation could be established between aminopterin resistance and polar lipid or fatty acid compositions. However, in the presence of bacteriostatic concentrations of aminopterin, the wild type and the resistant mutant did not have the same behavior. The resistant strain maintained its fatty acid composition and a normal [32P]phosphate distribution among phospholipids while the wild type shifted to a higher content in unsaturated fatty acids and to a high relative cardiolipin labelling. Such a differencein [32P] distribution was not observed when bacteriostatic concentrations of chloramphenicol were used, or when growth was stopped after amino acid deprivation induced by high concentrations of isoleucine. The biochemical basis of the aminopterin resistant character of the amiA mutants are not yet well understood but the present study establishes that the mutation confers a certain insensitivity of the lipid metabolism to aminopterin.     

Protonophore-resistance and cytochrome expression in mutant strains of the facultative alkaliphile Bacillus firmus OF4.

Two protonophore-resistant mutants, designated strains CC1 and CC2, of the facultative alkaliphile Bacillus firmus OF4 811M were isolated. The ability of carbonyl cyanide m-chlorophenylhydrazone (CCCP) to collapse the protonmotive force (delta mu H+) was unimpaired in both mutants. Both resistant strains possessed elevated respiratory rates when grown at pH 7.5, in either the presence or absence of CCCP. Membrane cytochromes were also elevated: cytochrome o in particular in strain CC1, and cytochromes aa3, b, c and o in strain CC2. Strain CC2 also maintained a higher delta mu H+ than the others when grown in the absence of CCCP. When grown in the presence of low concentrations of CCCP, strains CC1 and CC2 both maintained higher values of delta mu H+ than the wild-type parent and correspondingly higher capacities for ATP synthesis. In large-scale batch culture at pH 10.5, both mutant strains grew more slowly than the parent and contained significantly reduced levels of cytochrome o. Cells of stran CC1 also displayed a markedly altered membrane lipid composition when grown at pH 10.5. Unlike previously characterized protonophore-resistant strains of B. subtilis and B. megaterium, neither B. firmus mutant possessed any ability above that of the parent strain to synthesize ATP at given suboptimal values of delta mu H+. Instead, both resistant alkaliphile strains maintained a higher delta mu H+ and a correspondingly higher delta Gp than the parent strain when growing in sublethal concentrations of CCCP, apparently as a result of mutational changes affecting respiratory chain composition. Also of note in both the mutant and the wild-type strains was a marked elevation in the level of one of the multiple terminal oxidases, an aa3-type cytochrome, during growth at pH 7.5 in the presence of CCCP or during growth at pH 10.5, i.e. two conditions that reduce the bulk delta mu H+.     

Role of sterols in the interaction of polyene antibiotics with lipid membranes

The problem whether the membrane sterols are indirect acceptors of polyenic antibiotics or they play the role of substances providing conditions (at the expense of putting in order the membrane phospholipids) for formation of conductive complexes (ionic canals) from the antibiotic molecules is discussed. The comparative study on the ability of sterols of various structure (ergosterol, 7-dehydrocholesterol, cholesterol, 5 alpha-cholestan-3 beta-ol) to interact with the membrane phospholipids and to increase the sensitivity of such membranes to amphotericin B showed no correlation between the levels of these properties. The value of the changes in the cross elasticity module (E) of artificial bilayer lipid membranes from egg lecithin on introduction of the above sterols into their composition was used as the criterion for the interaction level. The absence of correlation between the above properties of the sterols indicated that the role of the sterols in interaction of polyenic antibiotics with the membranes could not be considered as the only effect of the sterols on putting in order the phospholipids, which confirmed the hypothesis on the acceptor function of the sterols with respect to polyenic antibiotics. The study of the effect of amphotericin B on the elastic properties of the cholesterol-containing bilayer membranes isolated from egg lecithin showed tha the values of the longitudinal and cross elasticity modules of the membranes did not change during introduction into the membranes of the ionic canals.     

Studies on gramicidin S synthetase. Purification and properties of the light enzyme obtained from some mutants of Bacillus brevis.

The phenylalanine-activating and/or-racemizing enzyme, i.e., the light enzyme, of gramicidin S synthetase was purified to a homogenous state by D-phenylalanine-Sepharose 4B chromatography from a wild and some gramicidin S-lacking mutant strains of Bacillus brevis. The light enzyme obtained from a mutant strain E-1 could activate phenylalanine but not racemize it, and had no phenylalanine-dependent ATP-[14C]AMP exchange activity, whereas the same enzyme obtained from other mutants and the wild strain had all three activities. Furthermore, the light enzyme of the mutant E-1 could form only acid-labile enzyme-bound phenylalanine, while the same fraction of the wild strain carried half of the enzyme-bound phenylalanine as acid-labile adenylate and half as a acid-stable thioester. These results suggest that the thiol site of the light enzyme of mutant E-1 might be damaged.     

Characterization of a Schizosaccharomyces pombe morphological mutant altered in the galactomannan content

In a search for Schizosaccharomyces pombe mutants resistant to the antifungal agent papulacandin B, a morphological mutant was isolated. The mutant is round shaped in contrast to the rod shaped parental strain. This morphological defect segregated as a recessive Mendelian character and was not observed in other papulacandin B resistant mutants belonging to the same complementation group. The mutation mapped in the right arm of S. pombe chromosome III very close to pap1 marker. Mutant cell walls were more susceptible to alkali extraction and Novozyme degradation than those from the wild-type. A specific reduction in the cell wall galactomannan fraction was the only significant difference detected as compared to the wild-type strain. Levels of beta (1,3)-glucan and mannan synthases as well as other enzymic periplasmic mannoproteins were very similar in wild type and mutant strains.