The uptake of low molecular weight sulfur-containing compounds by Histoplasma capsulatum and related dimorphic fungi

A number of low molecular weight organic sulfur-containing compounds were tested for their effect on the respiratory activity of yeastlike and mycelialH. capsulatum. Of the compounds tested, L-cyst(e)ine was found to give maximum stimulatory effect on yeastlike phase respiration. The D- and meso isomers of cyst(e)ine as well as substituted derivatives were much less effective in the stimulation of respiratory activity of yeastlikeH. capsulatum. Respiration of homologous mycelial phase cell suspensions was depressed in the presence of L-cystine as substrate, while respiratory activity of yeastlikeB. dermatitidis andS. schenckii was unaffected.Whole cell suspensions of yeastlikeH. capsulatum actively transported S³⁵-labeled L-cystine and methionine but apparently not -mercaptoacetate-S³⁵. Mycelial phaseH. capsulatum and the yeastlike and mycelial phases ofB. dermatitidis andS. schenckii were observed to take up S³⁵-labeled L-cystine to a much lesser degree than yeastlikeH. capsulatum as determined on a dry weight basis. These results suggest significant differences in the transport and subsequent intracellular mechanisms of metabolism of low molecular weight sulfur-containing -amino acids and related compounds by yeastlikeH. capsulatum and its corresponding mycelial phase as well as the dimorphic fungiB. dermatitidis andS. schenckii.

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Zusammenfassung Eine Anzahl organischer, Sulfur-enthaltender Verbindungen mit niedrigem Molekulargewicht sind betreffs ihrer Wirkung an der Atmungsaktivität von hefeähnlichem und myzelialemH. capsulatum untersucht worden. Von den untersuchten Verbindungen gab L-cyst(e)ine die größte Reizwirkung an der Atmung der Hefephase. Die D- und Meso-Isomers von Cyst(e)ine so wie auch die substituierten Derivatives waren in der Reizung der Atmungsaktivität der Hefephase vonH. capsulatum weniger wirksam. Die Atmung der Suspension von Zellen der homologen Myzelphase war in der Gegenwart von L-cystine als Substrat unterdrückt, während die Atmungsaktivität der Hefephase desB. dermatitidis und die desS. schenckii unbeeinflußt blieb. Suspensionen von ganzen Zellen der Hefephase desH. capsulatum transportierten wirksam S³⁵ L-cystine und Methionine, aber anscheinend nicht beta-mercaptoacetate-S³⁵. Myzelphase-H. capsulatum und Hefeund Myzelphasen desB. dermatitidis undS. schenckii nehmen S³⁵-L-Cystine zu einem geringeren Grade auf denn Hefephase-H. capsulatum wie es am Trockengewicht festgestellt worden ist. Diese Ergebnisse legen es nahe, daß wesentliche Unterschiede im Transport und in dem nachfolgenden Intracellularmechanismus des Stoffwechsels von den Sulfurenthaltenden alfa-Aminosäuren mit niedrigem Molekulargewicht und verwandten Verbindingen durch die Hefephase desH. capsulatum und der bezüglichen Myzelphase, so wie auch durch die Doppelphasenpilze:B. dermatitidis undS. schenckii bestehen.

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This study has been supported by Part I VA-8200 Funds.     

Enzymic nucleotidylylation of lincosaminide antibiotics

Summary Fermentations ofStreptomyces coelicolor are known to convert lincosaminide antibiotics to mixtures of their inactive 3-(5-ribonucleotides). In the present study, lincomycin, clindamycin and pirlimycin were nucleotidylylated and inactivated using crude enzyme preparations ofS. coelicolor. Optimal conversion is known to occur near pH 6 and to require Mg²⁺ and nucleoside 5-triphosphates. In descending order of activity, inosine, adenosine, guanosine, cytidine and uridine 5-triphosphates functioned as cofactors in these nucleotidylylations. In all instances, 90% of maximal conversion occurred within 24 h. When reaction rates were investigated as functions of enzyme protein addition, pirlimycin appeared to be the superior lincosaminide substrate. Antibiotic activities of these inactivation products could be regenerated through the action of phosphodiesterase, EC 3.1.4.1.     

Enzymatic synthesis of poly-β-hydroxybutyrate inZoogloea ramigera

The enzyme activity synthesizing poly--hydroxybutyrate (PHB) was mainly localized in the PHB-containing particulate fraction ofZoogloea ramigera I-16-M, when it grew flocculatedly in a medium supplemented with glucose. On the other hand, the enzyme activity remained in the soluble fraction, when the bacterium grew dispersedly in a glucose-starved medium.The soluble PHB synthase activity became associated with the particulate fraction as PHB synthesis was initiated on the addition of glucose to the dispersed culture. Conversely, the enzyme activity was released from the PHB-containing granules to the soluble fraction when the flocculated culture was kept incubated without supplementing the medium with glucose.PHB synthase was also incorporated into the newly formed PHB fraction when partially purified soluble PHB synthase was incubated withd(-)--hydroxybutyryl CoA in vitro.Although attempts to solubilize the particulate enzyme were unsuccessful, and the soluble enzyme became extremely unstable in advanced stages of purification, both PHB synthases had the same strict substrate specificity ford(-)--hydroxybutyryl CoA, and showed the same pH optimum at 7.0.Non-Standard Abbreviations PHB poly--hydroxybutyrate     

The uptake and incorporation of leucine and cystine by the mycelial and yeastlike phases of Blastomyces dermatitidis

Uptake and incorporation of L-leucine-C¹⁴ and L-cystine-S³⁵ was studied in the mycelial [MP] and yeastlike [YP] phases of the dimorphic fungal pathogen,Blastomyces dermatitidis. Both amino acids entered the cells of the two morphological forms ofB. dermatitidis by a permease-like system at low external concentrations of substrate. At high substrate levels, the amino acids entered the cells by a simple diffusion-like process in addition to the permease-like system. Michaelis-Menten constants [K_m] for L-leucine was found to be 1.1×10^–5 M and 4.4×10^–5 M for the MP and YP phases, respectively. The K_m for L-cystine was found to be 1.0×10^–5 M for the MP and 0.5×10^–5 M for the YP. A requirement for energy supplied by metabolic activity was demonstrated by the inhibition of uptake and incorporation of the amino acids by cells incubated with either 2,4-dinitrophenol or sodium azide. Amino acid uptake was broadly tolerant of hydrogen ion concentration, but definite optima were demonstrated at pH 7.0 to 7.5.     

Spontaneous feline sporotrichosis: A fine structural study

Fine structural details of the parasitic yeastlike phase of Sporothrix schenckii contained in biopsy tissue from a naturally-occurring case of disseminated feline sporotrichosis are described and illustrated by electron microscopy. Both free and phagocytosed fungal cells were observed. The fungal cells were contained within an extracellular, electron transparent vacuolar area which was bounded by a limiting membrane of probable host origin. The yeastlike cells were characterized by a conspicuous layer of osmiophilic microfilaments which occurred along the outermost surface of the cell wall. In many yeastlike cells, scattered, membranebound vacuoles containing electron opaque material were observed in the cytoplasm. Asteroid bodies were not observed.     

Low Glucose but Not Galactose Enhances Oxidative Mitochondrial Metabolism in C2C12 Myoblasts and Myotubes

Background

Substituting galactose for glucose in cell culture media has been suggested to enhance mitochondrial metabolism in a variety of cell lines. We studied the effects of carbohydrate availability on growth, differentiation and metabolism of C2C12 myoblasts and myotubes.

Methodology/Principal Findings

We measured growth rates, ability to differentiate, citrate synthase and respiratory chain activities and several parameters of mitochondrial respiration in C2C12 cells grown in media with varying carbohydrate availability (5 g/l glucose, 1 g/l glucose, 1 g/l galactose, and no added carbohydrates). C2C12 myoblasts grow more slowly without glucose irrespective of the presence of galactose, which is not consumed by the cells, and they fail to differentiate without glucose in the medium. Cells grown in a no-glucose medium (with or without galactose) have lower maximal respiration and spare respiratory capacity than cells grown in the presence of glucose. However, increasing glucose concentration above physiological levels decreases the achievable maximal respiration. C2C12 myotubes differentiated at a high glucose concentration showed higher dependency on oxidative respiration under basal conditions but had lower maximal and spare respiratory capacity when compared to cells differentiated under low glucose condition. Citrate synthase activity or mitochondrial yield were not significantly affected by changes in the available substrate concentration but a trend towards a higher respiratory chain activity was observed at reduced glucose levels.

Conclusions/Significance

Our results show that using galactose to increase oxidative metabolism may not be applicable to every cell line, and the changes in mitochondrial respiratory parameters associated with treating cells with galactose are mainly due to glucose deprivation. Moderate concentrations of glucose (1 g/l) in a growth medium are optimal for mitochondrial respiration in C2C12 cell line while supraphysiological concentrations of glucose cause mitochondrial dysfunction in C2C12 myoblasts and myotubes.     

Effect of external pH on ethanol oxidation byCandida utilis

The external pH affects both ethanol and oxygen uptake rates by nongrowing cells ofCandida utilis suspended either in distilled water or in phthalate buffer. The buffering properties of organic acids control the maximum rates of exogenous respiration and ethanol uptake. The substrate limitation of ethanol uptake rate and endogenous respiration rate increase proportionally with increasing hydrogen ion concentration in the medium.     

The possible role of uric acid in the ecology of Histoplasma capsulatum

Summary The results of this study indicate thatHistoplasma capsulatum in its saprophytic form is able to utilize the major nitrogenous constituent of avian manure as a nitrogen source. In addition, the enzymes responsible for the pathway of uric acid degradation to inorganic nitrogen have been demonstrated in cell-free systems. These enzymes include uricase, allantoinase, allantoicase, and urease. The uricase ofHistoplasma appears to be a cell wall or cell membrane-associated enzyme, while the other enzymes were located in the soluble portion of cell-free extracts. Cell-free extracts ofCryptococcus neoformans are actively uricolytic.It is suggested that this ability ofH. capsulatum hyphae to utilize uric acid and related compounds as growth substrates may in part explain the indisputable ecologic association of this pathogenic fungus with avian and possibly chiropteran-associated soils and habitats in those areas endemic for histoplasmosis.From the Research Laboratories, Veterans Administration Hospital, Kansas City, Missouri, the Department of Biology, University of Missouri at Kansas City and the Department of Microbiology, University of Kansas School of Medicine, Kansas City, Kansas. Supported by VA-8200 funds.Portion of a Thesis presented by the senior author to the Graduate Faculty of the University of Missouri at Kansas City as partial fulfillment of the requirements for the Degree of Master of Arts.     

A study of the growth condition and solubilization of phosphate from hydroxyapatite byPantoea agglomerans

The growth conditions ofPantoea agglomerans, a phosphate solubilizing organism, were studied in our laboratory to determine the optimal conditions.Pantoea agglomerans showed the highest growth rate at 30°C, pH 7.0 and 2 vvm, after 50 h cultivation. A certain relationship between pH and phosphate concentration, was evident when the glucose concentration in the medium was changed. Increasing glucose concentration increased the pH buffer action of the broth. At glucose concentrations higher than the optimum concentration of 0.2 M, the cell growth was retarded.P. agglomerans consumed glucose as a substrate to produce organic acids which caused the pH decrease in the culture medium. The phosphate concentration in the medium was increased by the presence of the organic acids, which solubilized insoluble phosphates such as hydroxyapatite.     

Glucose,Lactate and Glutamine but not Glutamate Support Depolarization-Induced Increased Respiration in Isolated Nerve Terminals

Synaptosomes prepared from various aged and gene modified experimental animals constitute a valuable model system to study pre-synaptic mechanisms. Synaptosomes were isolated from whole brain and the XFe96 extracellular flux analyzer (Seahorse Bioscience) was used to study mitochondrial respiration and glycolytic rate in presence of different substrates. Mitochondrial function was tested by sequentially exposure of the synaptosomes to the ATP synthase inhibitor, oligomycin, the uncoupler FCCP (carbonyl cyanide-4-(trifluoromethoxy) phenylhydrazone) and the electron transport chain inhibitors rotenone and antimycin A. The synaptosomes exhibited intense respiratory activity using glucose as substrate. The FCCP-dependent respiration was significantly higher with 10 mM glucose compared to 1 mM glucose. Synaptosomes also readily used pyruvate as substrate, which elevated basal respiration, activity-dependent respiration induced by veratridine and the respiratory response to uncoupling compared to that obtained with glucose as substrate. Also lactate was used as substrate by synaptosomes but in contrast to pyruvate, mitochondrial lactate mediated respiration was comparable to respiration using glucose as substrate. Synaptosomal respiration using glutamate and glutamine as substrates was significantly higher compared to basal respiration, whereas oligomycin-dependent and FCCP-induced respiration was lower compared to the responses obtained in the presence of glucose as substrate. We provide evidence that synaptosomes are able to use besides glucose and pyruvate also the substrates lactate, glutamate and glutamine to support their basal respiration. Veratridine was found to increase respiration supported by glucose, pyruvate, lactate and glutamine and FCCP was found to increase respiration supported by glucose, pyruvate and lactate. This was not the case when glutamate was the only energy substrate.     

Effect of Na+and K+Ions on the Luminescence of Intact Vibrio harveyiCells at Different pH Values

The bioluminescent activity of intact Vibrio harveyicells loaded with different concentrations of NaCl and KCl at different pH values was studied. In the pH range of 6.5–8.5, the effect of Na⁺was significantly higher than that of K⁺at all concentrations studied. Maximum luminescent activity was observed in cells loaded with 0.68 M NaCl. When Na⁺was nonuniformly distributed on the plasma membrane, the cell luminescence kinetics was nonstationary in the 20-min range: during incubation, the luminescence intensity increased at pH 6.5 and decreased at pH 8.5. The activation and damping rate constants depended on the Na⁺gradient value. The maximum of luminescent activity shifted during incubation from pH 8.5 to 6.5–7.0. The luminescence kinetics in the systems with KCl was stationary; the maximum level of luminescence was observed in the pH range of 7.0–7.5. Under Na⁺-controlled conditions, the cell respiration and luminescence changed in synchronism. The protonophore CCP at a concentration of 20 M completely inhibited luminescence at pH 6.5 and was ineffective at pH 8.5.     

Fervidobacterium nodosum gen. nov. and spec. nov., a new chemoorganotrophic,caldoactive, anaerobic bacterium

A new species of extremely thermophilic, glycolytic anaerobic bacterium, Fervidobacterium nodosum isolated from a New Zealand hot spring, is described. Fervidobacterium nodosum strains were Gram-negative, motile, non-sporulating obligately anaerobic rods that existed singly, in pairs or in chains. Electron micrographs of thin sections revealed a two-layered cell wall structure. The outer layer of the cell wall produced spheroids, which was a typical feature of this organism. The optimum temperature for growth was 65 to 70° C, the maximum 80° C and the minimum greater than 40° C. Growth occurred between a pH of 6.0 and 8.0 with the optimum being 7.0 to 7.5. The doubling time of Fervidobacterium nodosum at optimal temperature and pH was 105 minutes. The DNA base composition was 33.7% guanine plus cytosine as determined by thermal denaturation. A wide range of carbohydrates including glucose, sucrose, starch and lactose could be utilized by the organism. Lactate, acetate, hydrogen, and carbon dioxide were the major end products of glucose fermentation with lesser amounts of ethanol being formed. Growth was inhibited by tetracycline, penicillin and chloramphenicol indicating that the organism was a eubacterium.     

Studies on the incorporation of CO2 into starch by Chlorella vulgaris

Chlorella vulgaris was grown photosynthetically in batch culture under nitrogen sufficiency or nitrogen limitation. The starch content of the cells was measured as the amount of glucose released by enzymic hydrolysis of partially purified starch. Nitrogen sufficient algae contained approximately 20% of their dry weight as starch, whereas in nitrogen limited cells starch comprised up to 55% of the cellular dry weight. Starch production was pH dependent; optimal production of starch was achieved between pH 7.5 and 8.0. Optimal growth of C. vulgaris occurred at pH 7.0. Carbon yield experiments showed that for every gram of carbon consumed 0.5 g of starch (glucose) could be recovered. author for correspondence     

Molecular and cellular events during the germination of conidia of Sporothrix schenckii

Hyaline, non pigmented microconidia of Sporothrix schenckii were harvested and allowed to form germ tubes in a basal medium with glucose at pH 4.0 and 25 °C. These conditions supported only the development of the mycelial form of Sporothrix schenckii in a reproducible, synchronized manner which allowed further analysis of the early cellular events ocurring during the germination of the conidia. The relationship between macromolecular synthesis (DNA, RNA and protein synthesis) and nuclear division, hyphal growth and septum formation were established. Following inoculation, protein synthesis was observed after 10 minutes followed by RNA synthesis, after 1 h and DNA synthesis after 2 h. The first nuclear division was observed during the 9 to 12 h interval after inoculation. Germ tube formation slightly preceeded nuclear division and was first evidenced 9 h after the induction of germination but was not completed until 12 h after inoculation. Septation was first observed in the germ tubes 0.25 m from the mother cell-germ tube function 9 h after induction of germination.     

The stromacentre inAvena plastids: an aggregation ofβ-glucosidase responsible for the activation of oat-leaf saponins

The stromacentre, a particular structure in the plastids of mostAvena species, was isolated from etioplasts ofAvena sativa and then characterized to determine its biological function. When comparing differentAvena species with or without stromacentre, it was shown that the stromacentre, a 63-kDa protein, and saponins (characteristic compounds ofAvena sativa) either occur together or not at all. This linkage was confirmed by demonstrating a transformation of saponins by the isolated stromacentre protein: avenacosides were hydrolyzed to 26-desgluco-avenacosides. Therefore, the stromacentre protein had to be regarded as a-glucosidase. Enzyme assays usingp-nitrophenyl--d-glucopyranoside as substrate showed that this-glucosidase has a pH optimum at pH 6.0. The calculatedK _m value for this substrate was 2.2·10^-3 M. Antibodies against the stromacentre protein inhibited-glucosidase activity. The determination of the molecular weight of the-glucosidase by sodium dodecyl sulfate-gel electrophoresis showed that it consists of subunits of 63 kDa. After gel electrophoresis under non-denaturing conditions, enzymatically active molecules were shown to consist of at least two of these subunits. Molecules aggregated up to about 10⁶ Da also had enzyme activity. Enzyme assays using avenacosides as substrate showed a pH optimum at pH 6.0. The calculatedK _m value for this substrate was 1.2·10^-5 M. The high affinity to the avenacosides and the high specificity for the C-26 bound glucose indicate that avenacosides are the natural substrates for this-glucosidase. Assuming that the avenacosides in oat leaves play a role as preformed chemical inhibitory substances against phytopathogenic microorganisms, a model is presented showing the stromacentre with a central role in activating the fungitoxicity of avenacosides.     

Effect of Different Carbon Sources on Endochitinase Production by Colletotrichum gloeosporioides

The present work analyzes the production of endochitinase by Colletotrichum gloeosporioides, a phytopathogenic fungus, using six different carbon sources and two pH values. For quantitative assay of endochitinase activity in solution, the synthetic substrate 4-methylumbelliferyl-β-D-N,N’,N”-triacetylchitotrioside was used. The major productions were obtained at pH 7.0 and 9.0, when colloidal chitin and glucose were used, whereas xylose and lactose were not good carbon sources. When testing different concentrations of colloidal chitin, glucose and glucosamine, colloidal chitin 0.5% was the best substrate, giving values of 2.4 U at the fifth day. When using glucose, best production occurred at 0.3% concentration, after 5 days growth, with values of 1.31 U. Endochitinase production was markedly decreased in high levels of glucose and in all glucosamine concentrations tested. SDS-PAGE co-polymerized with glycol-chitin analysis showed three major activity bands of 200, 100, and 95 kDa, when incubated at 50°C.     

Purification and characterization of an aminopeptidase fromStreptococcus mitis ATCC 903

An aminopeptidase isolated from the cytoplasmic fraction of a cell extract ofStreptococcus mitis ATCC 903 was purified 330-fold by ion-exchange chromatography, gel filtration, and hydroxyapatite chromatography. The partially purified enzyme had a broad substrate specificity. Twelve aminoacyl-ß-naphthylamide substrates were hydrolyzed and also several di-, tri-, tetra-, and pentapeptides and bradykinin. The enzyme hydrolyzed arginine-ß-naphthylamide at the highest rate. Optimal conditions for activity were at pH 7.0–7.2 and at 37–40°C. The molecular weight of the enzyme was estimated to be 93,000. The enzyme was activated by Co²⁺ ions. Hg²⁺ inhibited the activity completely. SDS, EDTA, urea, and pCMB also inhibited activity. Inhibition by EDTA could be completely reversed by dialysis and addition of Co²⁺ ions. Reducing agents, sodium fluoride, and PMSF had no effect on the activity of the enzyme. The isoelectric point of the enzyme was at pH 4.3. High substrate concentrations inhibited activity. Substrate inhibition increased in the presence of high concentrations of Co²⁺ ions.     

Anaerobic respiration in latex ofHevea brasiliensis substrate and limiting factors

The site of anaerobic respiration in the latex is the serum. The main respiratory substrate is fructose. The CO₂ formation in serum is increased by additional fructose on the average about 2.5–3 times. Glucose does not influence CO₂ evolution by serum but slightly increases O₂ consumption. With respect to sugars, latex serum contains essentially only sucrose and a low amount of raffinose. During the incubation of serum sucrose is hydrolysed, the fructose component is immediately utilized in respiration and glucose accumulates. The rate of CO₂ formation in latex as influenced by fructose is negatively related to the rubber content of the latex. Latex with a high rubber content reacts only slightly or not at all on additional fructose. The main limiting factors of latex respiration and sugar utilization are the following:

1. The deficiency of substrate, due to low activity of β-fructofuranosidase.
2. The rate of glucose phosphorylation (D'Auzac, Jacob 1967).
3. Presumably the low activity of phosphoglucoisomerase.
4. The rubber content of the latex.
5. The concentration of CO₂ in latex; this factor may be important in vivo, in the laticiferous system.

     

Degradation of catechin and purification and partial characterization of catechin oxygenase fromChaetomium cupreum

An enzyme capable of cleaving catechin was present in the mycelium ofCheatomium cupreum. Maximum synthesis of the enzyme occurred after 15 days growth. Sucrose and maltose increased enzyme synthesis among the carbon sources tested. Catechol, protocatechuic acid and phloroglucinol carboxylic acid were the intermediates of catechin degradation.Cheatomium cupreum containedmeta-cleaving enzymes for catechol and protocatechuic acid metabolism. Pyruvate was identified as an end-product. Catechin oxygenase from the mycelium ofC. cupreum was purified to homogeneity. It was optimum at pH 7.0 and 50°C and was highly specific for catechin, with a K_m of 4 m. Its molecular size was 40 kDa, as determined by gel filtration and gel electrophoresis, and it had a pI of 9.1.p-Chloromercuric benzoate, iodoacetate, N-ethylmaleimide, 2,2-dipyridyl and EDTA markedly inhibited the enzyme activity. It was a glycoprotein.T. Sambandam was and A. Mahedevan is with the Center for Advanced Studies in Botany, University of Madras, Guindy Campus, Madras-600025, India. T. Sambandam is now with the Department of Medicine, University of Alabama at Birmingham, Birmingham, AL 35294, USA.     

Production of lipase fromAspergillus tamarii and its compatibility with commercial detergents

The production of extracellular lipase byAspergillus tamarii isolated from seeds ofNigella sativa and its compatibility with commercial detergents were studied. Optimal conditions for production were: a cultivation period of 6d, cultivation temperature 30°C, pH 7.0 (0.1 mol/L phosphate buffer) and 0.15% olive oil. The crude enzyme showed a high level of pH stability but was not thermostable. The enzyme retained more than 90% of its activity in the presence of some commercial detergents.