Antibody raised against extracellular proteinases ofSporothrix schenckii inS. schenkii inoculated hairless mice

Sporothrix schenckii produces two extracellular proteinases, namely proteinase I and II. Proteinase I is a serine proteinase, inhibited by chymostatin, while proteinase II is an aspartic proteinase, inhibited by pepstatin. Studies on substrate specificity and the effect of proteinase inhibitors on cell growth suggest an important role for these proteinases in terms of fungal invasion and growth. There has, however, been no evidence presented demonstrating thatS. schenckii produces 2 extracellular proteinases in vivo. In order to substantiate the in vivo production of proteinases and to attempt a preliminary serodiagnosis of sporotrichosis, serum antibodies against 2 proteinases were assayed usingS. schenckii inoculated hairless mice. Subsequent to an intracutaneous injection ofS. schenckii to the mouse skin, nodules spontaneously formed and disappeared for a period of 4 weeks. Histopathological examination results were in accordance with the microscopic observations. Micro-organisms disappeared during the fourth week. Serum antibody titers against purified proteinases I and II were measured weekly, using enzyme-linked immunosorbent assay (EIA). As a result, the time course of the antibody titers to both proteinases I and II were parallel to that of macroscopic and microscopic observations in an experimental mouse sporotrichosis model. These results suggest thatS. schenckii produces both proteinases I and II in vivo. Moreover, the detection of antibodies against these proteinases can contribute to a serodiagnosis of sporotrichosis.     

Effects of proteinase inhibitors on the cutaneous lesion ofSporothrix schenckii inoculated hairless mice

Sporothrix schenckii produces two extracellular proteinases, namely proteinase I and II. Proteinase I is a serine proteinase, inhibited by chymostatin. On the other hand, proteinase II is an aspartic proteinase, inhibited by pepstatin. The addition of either pepstatin or chymostatin to the culture medium did not inhibit cell growth, however the addition of both inhibitors strongly inhibited fungal growth. Accordingly, this suggested that extracellular proteinases play an important role in cell growth and that such cell growth may be suppressed if these proteinases are inhibited. In order to substantiate this speculation in sporotrichosis, the effects of proteinase inhibitors on the cutaneous lesions of mice were studied. Ointments containing 0.1% chymostatin, 0.1% pepstatin and 0.1% chymostatin-0.1% pepstatin were applied twice daily on the inoculation sites of hairless mouse skin, and the time courses of the lesions examined. The inhibitory effect in vivo onS. schenckii was similar to that demonstrated in our previous in vitro study. Compared to the control, the time course curve of the number of nodules present after the application of either pepstatin or chymostatin was slightly suppressed. The application of both pepstatin and chymostatin, however, strongly suppressed nodule formation. This study not only confirmed the role of 2 proteinases ofS, schenckii for fungal growth in vivo, but also may lead to their use as new topical therapeutic agents.     

Disturbances in the production of inteleukin-1 tumor and necrosis factor in disseminated murine sporotrichosis

Production of Interleukin-1 (IL-1) and Tumor Necrosis Factor (TNF) by adherent peritoneal cells from BALB/c mice was measured at week 2, 4, 6, 8 and 10 after intravenous inoculation with 10⁶ Sporothrix schenckii yeasts. As compared with age-matched controls, IL-1 and TNF production by adherent peritoneal cells fromS. schenckii-infected mice was reduced severely at week 4 and 6 of infection and greater than normal at week 8 and 10. Moreover, between week 4 and 6 of infection there was a depression of delayed type hypersensitivity response to a specific whole soluble antigen, and an increase in fungal multiplication in the livers and spleens of infected mice. Thus, the deficits of cell-mediated immunity in mice with systemicS. schenckii infection may derive, in part, from impaired amplification of the immune response consequent to abnormal generation of IL-1 and TNF.     

Variable compatibility of clonedAlnus glutinosa ecotypes against ineffectiveFrankia strains

Nodulation tests onin-vitro propagated clones ofAlnus glutinosa ecotypes (forest ecotype, pioneer ecotype) withFrankia strains originating from both ecotypes indicated differences in host-plant compatibility. Inoculated plants of the pioneer ecotype clone were not infected by strains, that were unable to fix nitrogen in pure culture. Nodulation could only be induced on the clone of the forest ecotype, but no nitrogen-fixing activity could be detected. Ultra-structural observations of the nodules by SEM and TEM indicated that ineffectivity of these strains was correlated with the lack of vesicles in the infected cells. Cells were only filled with hyphae: neither sporangia nor vesicles could be detected. In contrast, effective nodules could be obtained on both alder clones after inoculation with an effective strain, showing normal development of vesicle clusters in infected cells. In pure culture the ineffective strains produced no vesicles; sporangia were found only during early stage of growth. The results demonstrate the existence ofFrankia strains which were either non-infective or ineffective on different clones ofAlnus glutinosa.     

The effect of the supernatants obtained fromSporothrix schenkii andCandida albicans culture on the generation of reactive oxygen species by polymorphonuclear leukocytes

The effect of the supernatants obtained from the liquid culture medium ofSporothrix schenkii andCandida albicans on the generation of superoxide anion (O ₂ ^– and hydroxyl radicals OH_., the elements of reactive oxygen species (ROS), and chemilimunescence (CL), a measure of several ROS, by polymorphonuclear leukocytes (PMNs) was examined. In our study, it was shown that the supernatant ofS. schenkii increased all types of ROS generation examined and CL, while that ofC. albicans increased OH_. generation and CL. The effect of the supernatants ofS. schenkii on OH_. generation and CL and that ofC. albicans on CL were most remarkable when the supernatant obtained 8 weeks after the inoculation was used. The supernatant ofS. schenkii was shown to be a much more potent stimulant than the supernatant ofC. albicans. This ROS-stimulating effect of the supernatant ofS. schenkii was heat stable but not dialyzable. These findings suggest the possible role of ROS produced by infiltrated PMNs in the inflammatory skin lesions induced byS. schenkii.     

Ex vivo determination of potentially virulent Sporothrix schenckii

Hyphae from 30 isolants ofSporothrix andOphiostoma species were washed, dried and pyrolyzed at 350°C. Pyrolysis products were separated on a Carbowax column heated 7.5°C/min to and maintained for 50 min at 160°C. Hydrogen flame detector responses were recorded graphically. Fifteen clinical isolants ofS. schenckii from geographically separated sources produced qualitatively identical pyrograms.S. foliorum, 8 avirulentS. schenckii and otherSporothrix species isolants from soils, andSporothrix states of 6Ophiostoma species yielded pyrograms readily distinguished from each other and from those of virulentS. schenckii. Taxonomic and clinical implications of the pyrograms are mentioned.     

Defensive role of granuloma againstSporothrix schenckii infection

The defensive role of granuloma againstSporothrix schenckii infection was studied histopathologically using nude(nu/ nu) and their heterozygous(nu/+) littermates.Three strains ofS. schenckii (Sp.-1, Sp-17 and Sp-56) were used in this experiment. Each mouse was inoculated into a tail vein with 10⁶ yeast cells of the Sp-1, Sp-17 or Sp-56. The mice were sacrificed at adequate intervals until the 30th day and histopathological sections were prepared from various organs.The numbers of lesions and yeast cells were counted using the liver sections. Furthermore, an experiment of lymph node cell transfer and immunological examinations were carried out.As results the susceptibility of mice to three strains were conspicuously different from each other. The Sp-1 showed the strongest pathogenicity and the Sp-56, the weakest. The susceptibility of the nu/ nu mice inoculated with the Sp-1 was much higher than that of the nu/+ mice and the difference was due to the killing functions of granuloma. Even though about two days' delay was observed in the granuloma formation in the nu/ nu mice in comparison with that in the nu/+ mice, these granulomata could not be distinguished from those of the nu/+ mice. However, functionally there was a definite difference between the granulomata formed in the nu/+ and nu/nu mice. Mononuclear cells forming the granulomata in the nu/ nu mice did not have the ability to kill the yeast cells they had engulfed. Cooperation with T-lymphocytes was necessary for the killing of the yeast cells. A significant response of MIF developed in the immunocompetent mice 11 days after inoculation of the Sp-56, and that day nearly coincided with the day when yeast cells of the Sp-1 began to be destroyed in the granulomata. It was also confirmed by the experiment of lymph node cell transfer that T-cell functions were indispensable for the killing of the yeast cells by mononuclear cells.From these results the authors hypothesize that the mononuclear cells activated with T-lymphocytes could play a leading role as the defense mechanism of mice againstS. schenckii infection.     

Effects of hyperthermia on phagocytosis and intracellular killing of Sporothrix schenckii by polymorphonuclear leukocytes

The effects of hyperthermia on phagocytosis and killing of Sporothrix schenckii by polymorphonuclear leukocytes (PMNs) were investigated in order to clarify the mechanism of local thermotherapy for sporotrichosis. Yeast cells of S. schenckii, PMNs and serum were incubated at 37°C or 40°C for 2 or 4 hours. Rate of phagocytosis and killing rate (rate of germination) were estimated, and their processes were observed by transmission electron microscopy. There was no effect of hyperthermia on the phagocytosis rate, but the killing rate increased significantly at 40°C. Electron microscopic examination showed an increase of granularity in the yeast cytoplasm, elongation and fragmentation of the cell membrane. The ultrastructural changes were basically identical under both temperatures, but the degree of these changes was higher at 40°C than at 37°C. Although both intact and degenerated yeasts were found in the same conditions, their transient forms were few, suggesting that the PMN-killing process was completed promptly.     

Interaction of yeasts and some nitrogen fixing bacteria on nodulation of legumes

Summary Combined inoculation ofRhizobium trifolii withSaccharomyces cerevisiae and other yeasts generally enhanced the number of nodules, length of plants and dry weight of Egyptian clover (Trifolium alexandrinum) seedlings grown on agar slopes. Similar effects were observed when seedlings were inoculated withR. trifolii in the presence of dialyzed culture filtrate ofS. cerevisiae.     

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.     

Gastrointestinal inoculation of Sporothrix schenckii in mice

Antibiotic-decontaminated and untreated conventional mice were inoculated intragastrically with 10⁷ viable cells of Sporothrix schenckii to compare the incidence of gastrointestinal (GI) colonization. In control mice, S. schenckii was completely eliminated from the GI tract by 12 h post-inoculation. Antibiotictreated mice also failed to become colonized with this fungus, however, higher population levels of Sporothrix cells remained in the GI tract for a longer period of time before being eliminated. The ability of S. schenckii to disseminate from the lumen of the bowel to infect other organs was also tested. Results indicate that the gastrointestinal tract is not a portal of entry into the host for S. schenckii.     

Identification of three chitin synthase genes in the dimorphic fungal pathogenSporothrix schenckii

Degenerate PCR primers were used to amplify a 600-bp conserved gene region for chitin synthases from genomic DNA ofSporothrix schenckii, a dimorphic fungal pathogen of humans and animals. Three chitin synthase gene homologs were amplified as shown by DNA sequence analysis and by Southern blotting experiments. Based on differences among the predicted amino acid sequences of these homologs, each was placed within one of three different chitin synthase classes. Phylogenies constructed with the sequences and the PAUP 3.1.1. program showed thatS. schenckii consistently clustered most closely withNeurospora crassa in each of the three chitin synthase classes. These findings are significant because the phylogenies support by a new method the grouping of the imperfect fungusS. schenckii with the Pyrenomycetes of the Ascomycota.     

Glasshouse evaluation of the growth ofAlnus rubra andAlnus glutinosa on peat and acid brown earth soils when inoculated with four sources ofFrankia

The effects of soil type (an acid peat and 2 acid brown earths) andFrankia source (3 spore-positive crushed nodule inocula and spore-negative crushed nodules containing the singleFrankia ArI5) on nodulation, N content and growth ofAlnus glutinosa andA. rubra were determined in a glasshouse pot experiment of two years duration. Plants on all soils required additional P for growth. Growth of both species was very poor on peat withA. glutinosa superior toA. rubra. The former species was also superior toA. rubra on an acid brown earth with low pH and low P content. Some plant-inoculum combinations were of notable effectivity on particular soils but soil type was the major source of variation in plant weight. Inoculation with crushed nodules containingFrankia ArI5 only gave poor infection of the host plant, suggesting that inoculation with locally-collected crushed nodules can be a preferred alternative to inoculation withFrankia isolates of untested effectivity. Evidence of adaptation ofFrankia to particular soils was obtained. Thus, while the growth of all strains was stimulated by mineral soil extracts, inhibitory effects of peat extracts were more apparent with isolates from nodules from mineral soils than from peat, suggesting that survival ofFrankia on peat may be improved by strain selection.     

Effects of zinc on macromolecular synthesis and nuclear division during the yeast to mycelium transition in Sporothrix schenckii

Zinc ions (10 mM) have been reported previously to inhibit the yeast to mycelium transition in Sporothrix schenckii. Yeast cells of this fungus were harvested, selected by filtration and allowed to form germ tubes in a basal medium with glucose in the presence of 10 mM zinc and the effects of this ion on protein, RNA and DNA synthesis and nuclear division recorded. All of these processes were affected by the addition of 10 mM zinc to the medium. Nevertheless, the inhibition of protein synthesis was observed earlier than that of RNA or DNA synthesis and was of a greater magnitude than that observed for both of these processes. Protein synthesis was inhibited within the first hour after inoculation, at which time this process begins in the control cells. RNA synthesis was inhibited during the 3 to 6 h interval after inoculation, that is, 3 h after the start of this process in the control cells. After 9 h of incubation, the inhibition of protein synthesis had reached its maximum at 70%, while that of RNA synthesis was only 52%. DNA synthesis was slightly inhibited, with maximum inhibition being observed 9 h after inoculation. Nuclear division in cells forming germ tubes in the presence of 10 mM zinc took place with a 3 h delay in relation to the control cells. These observations suggest that the inhibition of protein synthesis might be the most important mechanism by which zinc inhibits the yeast to mycelium transition in S. schenckii.     

Defensive role of granuloma againstSporothrix schenckii infection

The defensive role of granuloma againstSporothrix schenckii infection was studied histopathologically using nude(nu/nu) and their heterozygous(nu/+) littermates. Three strains ofS. schenckii (Sp.-1, Sp-17 and Sp-56) were used in this experiment. Each mouse was inoculated into a tail vein with 10⁶ yeast cells of the Sp-1, Sp-17 or Sp-56. The mice were sacrificed at adequate intervals until the 30th day and histopathological sections were prepared from various organs. The numbers of lesions and yeast cells were counted using the liver sections. Furthermore, an experiment of lymph node cell transfer and immunological examinations were carried out. As results the susceptibility of mice to three strains were conspicuously different from each other. The Sp-1 showed the strongest pathogenicity and the Sp-56, the weakest. The susceptibility of the nu/nu mice inoculated with the Sp-1 was much higher than that of the nu/+ mice and the difference was due to the killing functions of granuloma. Even though about two days’ delay was observed in the granuloma formation in the nu/nu mice in comparison with that in the nu/+ mice, these granulomata could not be distinguished from those of the nu/+ mice. However, functionally there was a definite difference between the granulomata formed in the nu/+ and nu/nu mice. Mononuclear cells forming the granulomata in the nu/nu mice did not have the ability to kill the yeast cells they had engulfed. Cooperation with T-lymphocytes was necessary for the killing of the yeast cells. A significant response of MIF developed in the immunocompetent mice 11 days after inoculation of the Sp-56, and that day nearly coincided with the day when yeast cells of the Sp-1 began to be destroyed in the granulomata. It was also confirmed by the experiment of lymph node cell transfer that T-cell functions were indispensable for the killing of the yeast cells by mononuclear cells. From these results the authors hypothesize that the mononuclear cells activated with T-lymphocytes could play a leading role as the defense mechanism of mice againstS. schenckii infection.     

A comparison of some Ceratocystis species with sporothrix schenckii

Sympodulosporogenous states ofC. minor, C. montia, C. multiannulata, C. narcissi, C. nigrocarpa, C. perparvispora andC. pilifera were compared with typical and atypical strains ofS. schenckii from the aspects of some culture, morphological, serological characteristics, and mouse virulence. With a possible exception, all the former characteristics demonstrated among theCeratocystis species were either the same as, or varied in the same way as those observed amongS. schenckii strains. None of the former hydrolyzed starch, although all of the latter did. All species and strains cross reacted serologically in agglutination and Arthus-rype reactions, and produced similar gross pathological signs when injected with gastric mucin intraperitoneally into mice. Except for some variations in sizes and shapes of sympodulospores and of yeast-like budding forms observed in tissue smears and in cultures incubated at 37°C, theCeratocystis species were not significantly different from typical strains ofS. schenckii.

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Zusammenfassung Der sympodulosporogene Zustand vonC. minor, C. montia, C. multiannulata, C. narcissi, C. nigrocarpa, C. perparvispora undC. pilifera wurde mit typischen und atypischen Stämmen vonS. schenckii betreffs kultureller, morphologischer, serologischer Charakteristik und auf Virulenz für Mäuse untersucht. Mit einer möglichen Ausnahme waren alle Charakteristiken unter denCeratocystis-Arten dieselben oder sie wechselten wie diejenigen unter den Stämmen vonS. schenckii. Keine Stämme derCeratocystis hydrolysierten Stärke, während die Stämme vonS. schenckii getan haben. Alle die Arten und Stämme zeigten Kreuzreaktionen serologisch und in der Arthus-reaktion und zeigten dieselben groß-pathologischen Veränderungen nach intraperitonealen Injektionen mit Magenmuzin in der Maus. Außer etlicher Abwechslungen in Größe und Gestalt der Sympodulosporen und der hefe-ähnlichen Keimung, die in Gewebeausstrichen und in Kulturen bei 37°C beobachtet worden sind, waren dieCeratocystis-Arten nicht wesentlich unterschiedlich von typischen Stämmen vonS. schenckii.

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The author, Dr.R. W. Davidson (Colorado State University, Ft. Collins, Colorado), and Dr.F. Mariat (Institut Pasteur, Paris) have, in collaboration, identified the ascigerous state ofSporothrix schenckii strain G-118 isolated by the latter to beCeratocystis stenoceras (Robak)C. Moreau.     

Increased resistance of splenectomized mice to Sporothrix schenckii infection

The susceptibility of splenectomized mice to Sporothrix schenckii was studied, and the role of the spleen in the host defense is discussed. S. schenckii Sp-1 and ddy male mice were used. The mice were divided into 3 groups consisting of splenectomized, sham-operated and intact mice. Each mouse was inoculated intravenously with 2×10⁶ yeast cells 7 days after operation and the mice were sacrified at adequate intervals for 30 days. Then histological sections stained with H&E or by PAS were prepared from various visceral organs. Using the liver sections the number of yeast cells in a 40 mm² was counted. Furthermore, the colony forming unit in 100 mg of the liver tissue was compared to each other.In the sham-operated and intact mice many purulent lesions appeared on the 5th day. On the 8th day mononuclear cells accumulated at the foci, and on the 10th day most of the foci became granulomatous. The number of yeast cells in granulomatous lesions reached a peak on the 10th day and thereafter decreased abruptly. On the other hand, in the splenectomized mice approximately half of foci became granulomatous on the 5th day, and the number of yeast cells in the foci began to decrease after the 5th day.There were definite differences in the colony forming unit between the splenectomized and sham-operated or intact mice sacrificed 9 days after inoculation. The colony forming unit of the former is 9.3×10⁵ on the average, while that of the latter two is 5.6×10⁶ and 5.1×10⁶ on the average, respectively.In conclusion the resistance of ddy mice to S. Schenckii infection is enhanced due to splenectomy.     

Foodborne Sporothrix schenckii: Infectivity for mice by intraperitoneal and intragastric inoculation with conidia

Experimental infections with a foodborne isolate of the fungus Sporothrix schenckii were administered to mice by intraperitoneal or intragastric injection and gavage. All injected mice showed evidence of systemic sporotrichosis. Granulomas were observed from day 3 to day 12 in the organs of neonates inoculated by injection; in mice infected by gavage, granulomas were observed only in those inoculated with 10⁷ conidia. Susceptibility (based on cultural recovery) of the neonates to infections with 6×10⁶ conidia of the fungus was 100% with intragastric injection, 91% with intraperitoneal injection, and 21 and 24% (2×10⁷ conidia) with oral intubation. With both intragastric (59%) and intraperitoneal (25%) injections, more neonates died or were cannibalized by the mother than with intubation (14.5%). S. schenckii infected neonatal mice and caused illness by the oral route as well as by injection into the tissues or stomach. Adult mice, however, were susceptible to S. schenckii only by injection into the tissues, but not by gavage.     

Differences in virulence between isolates of feline Sporotrichosis

Sporotrichosis is a chronic subcutaneous mycosis caused by Sporothrix schenckii. This work aimed to evaluate the virulence of two different isolates of S. schenckii from cutaneous (CUT) and systemic (SYS) forms of feline sporotrichosis. A standard inoculum with 2 × 10³ yeast cells/ml was prepared from each of the isolates. The experimental infection was carried out with 0.1 ml of the inoculum from both isolates and then injected in the paw pads of Swiss albino mice of groups CUT and SYS. The clinical evolution of the disease and the diameter of the lesion at the inoculated sites were evaluated during nine weeks. Four necropsies were done to collect material from the lesions (p < 0.01). Group CUT demonstrated a more evident clinical evolution of the disease from week two to week five; large lesions in the paw pad on week four (p < 0.01); and a higher incidence of lesions in other parts of the body (p < 0.01) than group SYS (p < 0.01). S. schenckii was isolated from the inoculated site in groups SYS and CUT until days 30 and 45, respectively. Granulomas with yeast cells usually localized in the central area were observed in histopathology sections on days 15 and 30 post-inoculations. Those yeast cells decreased on day 45 being absent on day 62 when tissue repair initiated. The results showed that distinct clinical isolates of S. schenckii cause significant differences in the clinical evolution of sporotrichosis.     

Studies of an effective strain ofFrankia fromAllocasuarina lehmanniana of the Casuarinaceae

Summary Seedlings ofCasuarina spp. andAllocasuarina spp. were grown from seed in the greenhouse and inoculated with a nodule suspension fromC. equisetifolia. Plants ofCasuarina spp. nodulated regularly and were effective in nitrogen-fixation. Only one species ofAllocasuariona, A. lehmanniana formed root nodules. Using these plants as source of inoculum, the isolation of a newFrankia sp. HFPA11I1 (HFP022 801) was made and the strain was grown in pure culture.Frankia sp. HFPA11I1 grows well in a defined medium and shows typical morphological characteristics. In media lacking combined nitrogen, the filamentours bacterium forms terminal vesicles in abundance and differentiaties large intrahyphal or terminal sporangia containing numerous spores. This strain, used as inoculum, nodulates effectively seedlings ofC. equisietifolia andC. cunninghamiana, forming nodules with verically-growing nodule roots. Although effective in acetylene reduction, the endophyte within the nodules is filamentous and lacks veiscles. When used to inoculated seedlings ofA llocasuarina lehmanniana, Frankia sp. HFPA11I1 induces root nodules which are coralloid and lacking nodule roots. The nodules are effective in acetylene reduction and the filamentous hyphae ofFrankia within the nodule lobes lack vesicles. Effective nodulation inA. Lehmanniana depends upon environmental conditions of the seedlings and proceeds much more slowly than in Casuariana.