Cysteine biosynthesis in a fungus, Histoplasma capsulatum.

We have analyzed a step in cysteine biosynthesis in several strains of the pathogenic dimorphic fungus, Histoplasma capsulatum. Mycelial cells of all strains tested are prototrophic. However, the yeast phase cells of most stains do not grow in the absence of -SH-containing compounds due to the apparent lack of an active form of sulfite reductase, a crucial enzyme in the cysteine biosynthetic pathway. In contrast, the yeast phase cells of one strain (Downs) have been found to have an active sulfite reductase and can grow in the absence of cysteine if serine is added. A different metabolic block must thus exist in this strain. Sulfite reductase in the yeast form of Downs strain is completely repressed by growth on cysteine while the mycelial form seems to be constitutive. The yeast and mycelial phase extracts were analyzed on polyacrylamide gels. A distinct protein band appeared in extracts prepared from the yeast cells incubated in minimal or serine-containing media, but not in extracts from mycelia or from cysteine-grown yeast cells.     

Release of sulfhydryl compounds by the pathogenic fungusHistoplasma capsulatum

The pathogenic fungusHistoplasma capsulatum undergoes a mycelial to yeast transition when the temperature of incubation is switched from 25° to 37°C. The presence of exogenous cysteine or cystine has been reported to be required for this phase transition and for maintenance of yeast form and growth. However, the initial stages of mycelial to yeast transition and yeast growth are associated with the rapid utilization and conversion of exogenous cystine to at least one sulfhydryl compound, which appears in the extracellular milieu as detected by dithiodinitrobenzoic acid. Attempts to identify the extracellular thiol-containing compound with cystine metabolic standards indicate that the released thiols are not cysteine or reduced glutathione. These results indicate that other thiols may be important in supportingH. capsulatum yeast morphogenesis.     

Specific fluorescent antiglobulins for the detection and identification of blastomyces dermatitidis yeast-phase cells

Summary Two lots of rabbit anti-Blastomyces dermatitidis globulins were conjugated with fluorescein isothiocyanate. These reagents stained brightly elements of the yeast and mycelial phases of 10 strains ofB. dermatitidis. In addition, the labeled antibodies cross-reacted with elements of the yeast and mycelial phases of 7 strains ofHistoplasma capsulatum and cells of numerous other heterologous fungi. Adsorption of one lot of labeled antibodies twice with yeast cells ofH. capsulatum and once with elements ofGeotrichum candidum rendered the conjugate specific for the yeast phase ofB. dermatitidis. Three adsorptions with yeast cells ofH. capsulatum followed by a single adsorption with elements ofG. candidum rendered the second conjugate specific for yeast-phase cells ofB. dermatitidis. The specific reagents did not react with the mycelial phase of this fungus.     

The dimorphism and infectivity of Histoplasma capsulatum

Summary By examining mycelial cultures at regular intervals during incubation at 37° C in cysteine-enriched media, it was possible to detect differences in the conversion properties of six isolates ofHistoplasma capsulatum. The organisms varied according to conversion ability, rate and degree of transformation following yeast initiation, and cysteine sensitivity. These findings were unrelated to infectivity of the mycelial phase for mice as determined by percentage recovery of isolates from the cultured organs of inoculated animals.     

Selection and characterization of ura5 mutants of Histoplasma capsulatum

Summary The combined use of non-aggregating Histoplasma capsulatum strains and a defined medium which allows quantitative plating of the yeast phase has allowed us to select 5-fluoroorotic acid (5-FOA)-resistant mutants of this dimorphic fungus. Approximately two-thirds of the 5-FOA-resistant strains were auxotrophic for uracil; all were deficient in orotidine-5-monophosphate pyrophosphorylase (OMPpase) activity. One class of OMPpase mutant (), which retained a low level of OMPpase activity, was auxotrophic in the yeast phase (37°C) but grew slowly in the mycelial phase (25°C) without exogenous uracil. This phenotype was not due to a temperature-sensitive OMPpase activity. Both wild-type and mutants had a higher OMPpase activity in the mycelial phase than the yeast phase; this increased activity may be sufficient to allow mycelial growth of mutants.     

Sulfate reduction in a cell-free system ofChlorella

Summary During sulfate reduction in a cell-free system ofChlorella activated sulfate of APS is transferred to a thiosulfonate reductase. The sulfate thus bound to the thiosulfonate reductase (i.e. bound sulfite) is reduced to bound sulfide in a ferredoxin dependent reaction. This bound sulfide can be used with O-acetylserine as acceptor for cysteine biosynthesis; serine and O-phosphoserine are not used. An assaysystem for thiosulfonate reductase activity using methylviologen dependent reduction of S₂O₄ ^2– to S^2– is developed and a procedure for isolating thiosulfonate reductase fromChlorella cells is presented. During isolation of thiosulfonate reductase a low weight molecular factor, needed for optimal enzyme activity was lost. The bound sulfite seems to be attached to this factor. Reduction of APS or GS-SO₃H to the level of S^2– is inhibited by cysteine. 50% inhibition of GS-SO₃H reduction was found at a molar cysteine concentration of 6.8×10^–5.Abbreviations APS adenosine-phosphosulfate - PAPS 3-phosphoadenosine-5-phosphosulfate - GSH reduced glutathion - GS-SO₃H S-sulfoglutathion - fd ferredoxin - Mv methylviologen - DTT dithiothreitol     

Paraquat induced thiol modulation of Histoplasma capsulatum morphogenesis

Cysteine metabolism with the subsequent release of anionic thiols has been shown to be involved in yeast cell morphogenesis of the dimorphic, pathogenic fungus Histoplasma capsulatum. Following transfer to fresh medium, intracellular thiol levels during the initial 2–4 h appear to determine the eventual growth form. Mild oxidative stress induced by paraquat (methyl viologen) caused enhanced intracellular and extracellular thiol production and an increase in protein thiol formation. Mildly stressed cells continued to grow in the yeast form. Severe oxidative stress induced by high concentrations of paraquat resulted in lowered thiol production as well as reversion to the alternate mycelial morphology. These results suggest that thiol modulation of intracellular protein status may be involved in morphogenesis of H. capsulatum.     

Siroheme sulfite reductase isolated from Chromatium vinosum. Purification and investigation of some of its molecular and catalytic properties

Cells of the phototrophic bacterium Chromatium vinosum strain D were shown to contain a siroheme sulfite reductase after autotrophic growth in a sulfide/bicarbonate medium. The enzyme could not be detected in cells grown heterotrophically in a malate/sulfate medium. Siroheme sulfite reductase was isolated from autotrophic cells and obtained in an about 80% pure preparation which was used to investigate some molecular and catalytic properties of the enzyme. It was shown to consist of two different types of subunits with molecular weights of 37,000 and 42,000, most probably arranged in an ₄₄-structure. The molecular weight of the native enzyme was determined to 280,000, 51 atoms of iron and 47 atoms of acid-labile sulfur were found per enzyme molecule. The absorption spectrum indicated siroheme as prosthetic group; it had maxima at 280 nm, 392 nm, 595 nm, and 724 nm. The molar extinction coefficients were determined as 302×10³ cm²xmmol^-1 at 392 nm, 98×10³ cm² xmmol^-1 at 595 nm and 22×10³ cm²x-mmol^-1 at 724 nm. With reduced viologen dyes as electron donor the enzyme reduced sulfite to sulfide, thiosulfate, and trithionate. The turnover number with 59 (2 e^-/enzyme moleculexmin) was low. The pH-optimum was at 6.0. C. vinosum sulfite reductase closely resembled the corresponding enzyme from Thiobacillus denitrificans and also desulfoviridin, the dismilatory sulfite reductase from Desulfovibrio species. It is proposed that C. vinosum catalyses anaerobic oxidation of sulfide and/or elemental sulfur to sulfite in the course of dissimilatory oxidation of reduced sulfur compounds to sulfate.Non-common abbreviations APS adenylyl sulfate - SDS sodium dodecyl sulfate     

Sulfate formation via ATP sulfurylase in thiosulfate- and sulfite-disproportionating bacteria

Disproportionation of thiosulfate or sulfite to sulfate plus sulfide was found in several sulfate-reducing bacteria. Out of nineteen strains tested, eight disproportionated thiosulfate, and four sulfite. Growth with thiosulfate or sulfite as the sole energy source was obtained with three strains (Desulfovibrio sulfodismutans and the strains Bra02 and NTA3); additionally, D. desulfuricans strain CSN grew with sulfite but not with thiosulfate, although thiosulfate was disproportionated. Two sulfur-reducing bacteria, four phototrophic sulfur-oxidizing bacteria (incubated in the dark), and Thiobacillus denitrificans did not disproportionate thiosulfate or sulfite. Desulfovibrio sulfodismutans and D. desulfuricans CSN formed sulfate from thiosulfate or sulfite even when simultaneously oxidizing hydrogen or ethanol, or in the presence of 50 mM sulfate. The capacities of sulfate reduction and of thiosulfate and sulfite disproportionation were constitutively present. Enzyme activities required for sulfate reduction (ATP sulfurylase, pyrophosphatase, APS reductase, sulfite reductase, thiosulfate reductase, as well as adenylate kinase and hydrogenase) were detected in sufficient activities to account for the growth rates observed. ADP sulfurylase and sulfite oxidoreductase activities were not detected. Disproportionation was sensitive to the uncoupler carbonylcyanide m-chlorophenylhydrazone (CCCP) but not to the ATPase inhibitor dicyclohexylcarbodiimide (DCCD). It is proposed that during thiosulfate and sulfite disproportionation sulfate is formed via APS reductase and ATP sulfurylase, but not by sulfite oxidoreductase. Reversed electron transport must be assumed to explain the reduction of thiosulfate and sulfite by the electrons derived from APS reductase.Abbreviations CCCP Carbonylcyanide m-chlorophenylhydrazone - DCCD N,N-dicyclohexylcarbodiimide - APS adenosine 5-phosphosulfate (adenylylsulfate)     

Sulfite formation by wine yeasts

Four strains of wine yeasts of two different species (Saccharomyces cerevisiae var. ellipsoideus and S. bayanus) were investigated with respect to regulation of NADPH- and benzyl viologen-dependent sulfite reductases by various sulfur sources. The enzyme activity was followed over a growth period of 96 h. The low sulfite-producing strains showed an increased biosynthesis of NADPH-dependent sulfite reductase during the exponential growth phase in the presence of sulfate, sulfite and djencolic-acid. This increase was not observed in the high sulfite-producing strains. Methionine and cysteine prevented this derepression. At the end of the exponential growth phase, enzyme biosynthesis was repressed again, presumably by sulfur-containing amino acids which were produced during growth. The regulatory influence of the various sulfur sources on benzyl viologen dependent sulfitereductase activity is obviously much weaker.Abbreviation BV benzyl viologen     

A DNA Region That Complements on Escherichia coli cysG Mutation in Thiobacillus Ferrooxidans

Thiobacillus ferrooxidans AP19-3 has a novel NADH-dependent sulfite reductase in the periplasmic space. The gene responsible for the appearance of NADH-dependent sulfite reductase activity was cloned into a vector plasmid pBR322 to give a 5.7-kb hybrid plasmid, pTHS1, which contains a 1.3-kb DNA fragment of T. ferrooxidans AP19-3. When pTHS1 was used to transform sulfite reductase deficient E. coli mutants, strain AT2455 (cysG), JM246 (cysl), and AT2427 (cysJ), it complemented only the E. coli cysG mutation. Since cysG codes for S-adenosyl-L-methionine: uroporphyrinogen III methyltransferase, the enzyme involved in siroheme synthesis, the results indicate that the DNA region that codes for S-adenosyl-L-methionine: uroporphyrinogen III methyltransferase is present in a T. ferrooxidans 1.3 kb DNA fragment on pTHS1.     

Immunohistochemical Cross-Reactivity Between <Emphasis Type="Italic">Paracoccidioides</Emphasis> sp. from Dolphins and <Emphasis Type="Italic">Histoplasma capsulatum</Emphasis>

Paracoccidioidomycosis ceti is a cutaneous disease of cetaceans caused by uncultivated Paracoccidioides brasiliensis or Paracoccidioides spp. Serological cross-reactions between paracoccidioidomycosis ceti and paracoccidioidomycosis, paracoccidioidomycosis and histoplasmosis, and paracoccidioidomycosis and coccidioidomycosis have been reported before. The present study aimed to detect immunohistochemical cross-reaction between antibodies to Paracoccidioides sp. and Histoplasma capsulatum, and vice versa. Thirty murine sera, obtained from experimental infections of 6 isolates of H. capsulatum, were reacted with paraffin-embedded yeast-form cells of Paracoccidioides sp. derived from a case of paracoccidioidomycosis ceti in Japan. The murine sera were also reacted with human isolates of H. capsulatum yeast cells, with P. brasiliensis yeast cells, and with fungal cells of Coccidioides posadasii. Three dolphins’ sera from cases of paracoccidioidomycosis ceti, two human sera from patients with paracoccidioidomycosis, and a serum from a healthy person with a history of coccidioidomycosis were used in order to determine that the tested fungal cells reacted properly. Sera derived from mice infected with an isolate of H. capsulatum reacted positively against yeast cells of Paracoccidioides sp., yeast cells of P. brasiliensis, and fungal cells of C. posadasii, while those derived from other strains were negative. The present study recorded for the first time the cross-reaction between the yeast cells of H. capsulatum and antibodies against Paracoccidioides spp., the yeast cells of Paracoccidioides sp. and antibodies against H. capsulatum, the yeast cells of Paracoccidioides sp. and antibodies against Coccidioides sp., and fungal cells of C. posadasii and antibodies against Paracoccidioides spp.     

Cysteine-independent and cysteine-requiring yeast-strains of Histoplasma capsulatum

Recently we described a strain of Histoplasma capsulatum, designated H-35, which is able to grow as yeast on a minimal medium consisting of inorganic salts, glucose and a trace of biotin. Using this strain as a prototrophic wild type we sought auxotrophic mutants. Mutagenized yeast-cells were starved for inorganic sulfate in sulfur-free minimal medium. Sulfate was then added, and growing prototrophic cells were killed by addition of amphotericin B. After 24 hours non-growing auxotrophs were rescued by removal of amphotericin and addition of yeast extract. This mutant enrichment cycle was repeated two additional times, after which the cells were plated on blood agar and 800 yeast-colonies were picked. Seventeen of these yeast-strains required cysteine for growth, as compared with strain H-35, which grew as yeast on minimal medium.     

Correlation ofLegionella pneumophila virulence with the presence of a plasmid

Legionella pneumophila is the causative agent of Legionellosis in man and considered an opportunistic intracellular Gram-negative bacterium that preferentially infects macrophages. The presence of a plasmid in these organisms was determined in cultures of the bacteria grown in vitro. A correlation was observed between the growth of virulent strains of theLegionella in murine macrophages and growth on standard buffered charcoal yeast extract agar supplemented with 0.1% -ketoglutarate (BCYE) agar medium rich in cysteine and widely used for growth of the bacteria in vitro. In contrast, the avirulent isolates of these strains grew well on supplemented Mueller-Hinton (SMH) agar utilized for differentiating virulent from avirulentLegionella. However, one virulent strain ofLegionella (the Iowa strain) was found to grow moderately well on the SMH agar. In addition, test strains ofLegionella that infect in vitro human monocytes were found to grow moderately well on the BCYE- agar, but did not grow on the SMH agar. Examination of these strains for plasmid DNA expression showed that extra chromosomal DNA-containing molecules were present in theL. pneumophila strains characterized as virulent for in vitro growth in macrophages. However, the avirulent strains that replicated in the human monocytes readily but only poorly in the permissive murine macrophages did not show evidence of similar plasmid DNA expression.     

Mechanism of dissimilatory sulfite reduction by Desulfovibrio desulfuricans: purification of a membrane-bound sulfite reductase and coupling iwth cytochrome c 3 and hydrogenase

The localization of the dissimilatory sulfite reductase in Desulfovibrio desulfuricans strain Essex 6 was investigated. After treatment of the cells with lysozyme, 90% of the sulfite reductase activity was found in the membrane fraction, compared to 30% after cell rupture with the French press. Sulfite reductase was purified from the membrane (mSiR) and the soluble (sSiR) fractiion. On SDS-PAGE, both mSiR and sSiR exhibited three bands at 50, 45 and 11 kDa, respectively. From their UV/VIS properties (distinct absorption maxima at 391, 410, 583, 630 nm, enzymes as isolated) and the characteristic red fluorescence in alkaline solution, mSiR and sSiR were identified as desulfoviridin. Sulfite reductase (HSO₃ ^-H₂S) activity was reconstituted by coupling of mSiR to hydrogenase and cytochrome c ₃ from D. desulfuricans. The specific activity of mSiR was 103 nmol H₂ min^-1 mg^-1, and sulfide was the major product (72% of theoretical yield). No coupling was found with sSiR under these conditions. Furthermore, carbon monoxide was used to diferentiate between the membrane-bound and the soluble sulfite reductase. In a colorimetric assay, with photochemically reduced methyl viologen as redox mediator, CO stimulated the activity of sSiR significantly. CO had no effect in the case of mSiR. These studies documented that, as isolated, both forms of sulfite reductase behaved differently in vitro. Clearly, in D. desulfuricans, the six electron conversion HSO₃ ^-H₂S was achieved by a membranebound desulfoviridin without the assistance of artificial redox mediators, such as methyl viologen.Abbreviations SiR sulfite reductase - mSiR sulfite reductase purified from membranes - sSiR sulfite reductase purified from the soluble fraction Enzymes Sulfite reductase, EC 1.8.99.1 Cytochrome c ₃ hydrogenase, EC 1.12.2.1     

Characteristics of the Aroma Constitution Found in Native China Black Teas

The distribution of glutathione S-transferase (GST) (EC 2.5.1.18) in yeasts was investigated. High enzyme activity was found in some strains of Issatchenkia and Candida. Of 168 strains tested, Iss. orientalis showed the highest activity. The enzyme activity exists constitutively in the yeast cells but it increased with the addition of an enzyme substrate, o-dinitrobenzene, to the culture medium. Moreover, the addition of l-cysteine and glycine to the medium also increased the enzyme activity. This enzyme was so unstable that it lost almost all its activity on ammonium sulfate precipitation and 93% of its activity was lost when it was stored at 4°C for two weeks in a soluble state. We found that it was stabilized considerably in a solution containing 20% glycerol, 1 mm EDTA, 2 mm DTT and 10 mm sodium sulfite.     

Experimental histoplasmosis in temporarily „hibernating“ hamsters

Summary Although occasional hibernation was observed in golden hamsters kept at low temperatures during the winter months, the periods of hibernation were apparently too short to induce conversion of the yeast cells ofH. capsulatum into the mycelial phase or to prevent conversion into the yeast phase when inoculated in the mycelial phase.As a result of exposure to low temperatures, a heavily disseminated, severe and often fatal histoplasmosis was observed in contrast to slight dissemination in control animals kept at room temperature.In addition to extensive lesions in the organs in the heavily infected hamsters, severe fungemia, accumulations of numerous yeast cells within large cells and histoplasmic phlebitis and pleuritis of a proliferative character were seen.Schaumann bodies did not develop in granulomatous lesions of heavily infected animals kept at low temperatures, nor were they prominent in tissues with heavy accumulations of yeast cells or after inoculation with the mycelial phase.This project was supported in part by Grant E-576 from the National Institutes of Health.     

Comparative aspects of utilization of sulfonate and other sulfur sources by Escherichia coli K12

Selected biochemical features of sulfonate assimilation in Escherichia coli K-12 were studied in detail. Competition between sulfonate-sulfur and sulfur sources with different oxidation states, such as cysteine, sulfite and sulfate, was examined. The ability of the enzyme sulfite reductase to attack the C-S linkage of sulfonates was directly examined. Intact cells formed sulfite from sulfonate-sulfur. In cysteine-grown cells, when cysteine was present with either cysteate or sulfate, assimilation of both of the more oxidized sulfur sources was substantially inhibited. In contrast, none of three sulfonates had a competitive effect on sulfate assimilation. In studies of competition between different sulfonates, the presence of taurine resulted in a decrease in cysteate uptake by one-half, while in the presence of isethionate, cysteate uptake was almost completely inhibited. In sulfite-grown cells, sulfonates had no competitive effect on sulfite utilization. An E. coli mutant lacking sulfite reductase and unable to utilize isethionate as the sole source of sulfur formed significant amounts of sulfite from isethionate. In cell extracts, sulfite reductase itself did not utilize sulfonate-sulfur as an electron acceptor. These findings indicate that sulfonate utilization may share some intermediates (e.g. sulfite) and regulatory features (repression by cysteine) of the assimilatory sulfate reductive pathway, but sulfonates do not exert regulatory effects on sulfate utilization. Other results suggest that unrecognized aspects of sulfonate metabolism, such as specific transport mechanisms for sulfonates and different regulatory features, may exist.     

Factors affecting mycelial to yeast phase conversion and growth of the yeast phase ofHistoplasma capsulatum

A procedure for rapid induction of mycelial to yeast phase (M→Y) conversion ofHistoplasma capsulatum has been devised. Exposure of mycelial fragments to low oxidation-reduction (O/R) potentials (+5 to+65 mv) either aerobically (ascorbic acid treatment) or anaerobically (nitrogen atmosphere) for 18 to 24 hours at 37° C resulted in induction of the M→Y conversion process whether or not an organic sulfur source was available. However, aerobic conditions and a suitable organic sulfur source, such as cysteine, cystine or lanthionine were found essential for outgrowth and maintenance in the yeastlike phase.     

A natural focus ofHistoplasma capsulatum var.duboisii is a bat cave

The natural reservoir ofHistoplasma capsulatum var.duboisii, the etiological agent of histoplasmosis duboisii (African histoplasmosis) is not yet known. We report the isolation ofH. capsulatum var.duboisii from soil admixed with bat guano and from the intestinal contents of a bat in a sandstone cave in a rural area, Ogbunike in Anambra State of Nigeria. Eight of 45 samples of soil admixed with bat guano yieldedH. capsulatum var.duboisii. Of the 35 bats belonging to the speciesNycteris hispida andTadirida pumila examined, only one (N. hispida) yielded this fungus from its intestinal contents. Identification of the isolates asHistoplasma was confirmed by exoantigen tests and by mating with tester strains ofH. capsulatum. In vitro conversion to large yeast from suggestive ofH. capsulatum var.duboisii was obtained on brain heart infusion agar supplemented with sheep blood and glutamine or cysteine. Pathogenicity tests with mice for all the isolates confirmed their identity by the demonstration of large yeast forms (8–15 µm in diameter) within giant cells in the infected tissues. Investigations on the possible occurrence of human infections in the area are in progress.A poster based on this work was presented at the 11th ISHAM Congress in Montreal, Canada (22–28 June 1991), La-Hoffman Roche, Basel, Switzerland kindly financed the trip of one of us (H.C.G) for the Congress.