Chemical composition and immunological properties of glycoproteins of Sporothrix species

Glycoproteins of 11Sporothrix species were purified from their respective culture filtrates by use of DEAE-Sephadex A-50 and QAE-Sephadex A-25 column chromatography and investigated for their chemical and immunological properties. On the basis of sugar composition, the glycoproteins of the 11Sporothrix species could be divided into two groups, i.e., rhamnose containing (i.e., Rha⁺), and non rhamnose containing (i.e., Rha^?) groups. The species in the former group wereS. curviconia, S. inflata, S. schenckii andS. schenckii var. luriei, and those in the latter group wereS. cyanescens, S. foliorum, S. fungorum, S. ghanensis, S. imectorum, S. luteoalba andS. ramosissima. The glycoproteins of four of the (Rha⁺) species were relatively similar in elution patterns of DEAE-Sephadex A-50 chromatograms, sugar and amino acid compositions, serological reactivity with rabbit andS. schenckii serum and rabbit antiKlebsiella pneumoniae K47 serum, and cutaneous delayed hypersensitivity. In the case of the (Rha^?) species, the glycoproteins of five species cross-reacted with rabbit antiS. schenckii serum and all, but theS. cyanescens, glycoprotein were reactive to some degree in skin tests in sporotrichotic patients. These results strongly suggest that the chemical and immunological properties of these glycoproteins correspond with the morphological observations amongSporothrix species.     

Correlations among culture times,sugar composition and biological activities of Sporothrix schenckii antigens

Glycoproteins were isolated by ethanol precipitation, Con A-sepharose 4B and DEAE-sephadex A-50 chromatography from culture filtrates of Sporothrix schenckii ATCC 10268 at incubation periods of 2, 7, and 14 days, and their chemical and immunological properties investigated. Sugar composition of the isolated glycoproteins varied with time of culture, i.e. from mostly mannose on the 2nd day of culture to increasing amounts of rhamnose and small amounts of galactose in addition to mannose on the 7th and 14th day. The changes in sugar composition also were observed to be closely related to the growth morphology of the organisms. The isolated glycoproteins showed different serological reactivity in immunodiffusion tests against rabbit anti-S. schenckii antiserum. In addition, they showed varying degree of cross-reaction with rabbit anti Klebsiella pneumoniae K47, anti Cladosporium werneckii and anti Saccharomyces cerevisiae antisera. The immunodiffusion results correlate well with sugar composition and strongly suggest the possibility that rhamnose, galactose and mannose determinants participate in the serological reaction of S. schenckii. In delayed hypersensitivity skin tests in guinea pigs immunized with S. schenckii, only Con A-binding glycoproteins were reactive. These fractions also resembled each other in amino acid content. The results from the present work indicate that the immunochemical properties of S. schenckii glycoproteins vary with incubation period, and suggest the need for standardization of sporotrichin test antigens.     

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.     

Serological cross-reactivity betweenKlebsiella pneumoniae K47 andSporothrix species

The serological cross-reactivity ofKlebsiella pneumoniae K47 antiserum with antigens of 11Sporothrix species was investigated by use of immunodiffusion. Cross-reactions occurred withK. pneumoniae K47 and theSporothrix speciesS. schenckii, S. schenckii var.luriei, S. curviconia, andS. inflata.     

Serological cross-reactivity between sporothrix schenckii and various unrelated fungi

The serological cross-reactivity ofSporothrix schenckii with various unrelated fungi was investigated by use of immunodiffusion tests. A rabbit antiS. schenckii serum was obtained, which reacted withCladosporium werneckii, C. carrionii, C. bantianum, Coccidioides immitis, Phialophora jeanselmei, P. gougerotii, P. dermatitidis, Fonsecaea pedrosoi, Aspergillus fumigatus, Histoplasma capsulatum andTrichophyton mentagrophytes, but not withSaccharomyces cerevisiae antigens. The serological determinants responsible for the cross-reactions were suggested to be D-galactosyl residues.     

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.     

Biosynthesis and Functions of a Melanoid Pigment Produced by Species of the Sporothrix Complex in the Presence of l-Tyrosine

Sporothrix schenckii is the etiological agent of sporotrichosis, the main subcutaneous mycosis in Latin America. Melanin is an important virulence factor of S. schenckii, which produces dihydroxynaphthalene melanin (DHN-melanin) in conidia and yeast cells. Additionally, l-dihydroxyphenylalanine (l-DOPA) can be used to enhance melanin production on these structures as well as on hyphae. Some fungi are able to synthesize another type of melanoid pigment, called pyomelanin, as a result of tyrosine catabolism. Since there is no information about tyrosine catabolism in Sporothrix spp., we cultured 73 strains, including representatives of newly described Sporothrix species of medical interest, such as S. brasiliensis, S. schenckii, and S. globosa, in minimal medium with tyrosine. All strains but one were able to produce a melanoid pigment with a negative charge in this culture medium after 9 days of incubation. An S. schenckii DHN-melanin mutant strain also produced pigment in the presence of tyrosine. Further analysis showed that pigment production occurs in both the filamentous and yeast phases, and pigment accumulates in supernatants during stationary-phase growth. Notably, sulcotrione inhibits pigment production. Melanin ghosts of wild-type and DHN mutant strains obtained when the fungus was cultured with tyrosine were similar to melanin ghosts yielded in the absence of the precursor, indicating that this melanin does not polymerize on the fungal cell wall. However, pyomelanin-producing fungal cells were more resistant to nitrogen-derived oxidants and to UV light. In conclusion, at least three species of the Sporothrix complex are able to produce pyomelanin in the presence of tyrosine, and this pigment might be involved in virulence.     

Phenotypic and Molecular Identification of <Emphasis Type="Italic">Sporothrix</Emphasis> Isolates from an Epidemic Area of Sporotrichosis in Brazil

Sporotrichosis has significantly increased in Brazil in the last decade, particularly in the state of Rio de Janeiro, with the occurrence of an epidemic related to zoonotic transmission from cats to humans. Recently, four new phylogenetic species were incorporated into the Sporothrix species complex based on the phenotypic and molecular characteristics, and a new species name (Sporothrix brasiliensis) was proposed for some of the Sporothrix isolates from this epidemic. This study describes the characterization of 246 isolates obtained from patients attending the Laboratory of Infectious Dermatology, IPEC-FIOCRUZ, between 1998 and 2008, together with one environmental sample. Two hundred and six of the isolates (83.4%) were characterized as S. brasiliensis, 15 (6.0%) as S. schenckii, and one (0.5%) as S. mexicana. Twenty-five isolates (10.1%) could not be identified according to their phenotype and were classified as Sporothrix spp. The calmodulin gene was sequenced to confirm the identity of these isolates. The molecular analysis demonstrated that 24 of the isolates were S. brasiliensis, with the remainder being a S. globosa isolate. The isolate characterized phenotypically as S. mexicana was clustered on the S. schenckii clade. The correlation between molecular data and phenotypic characteristics described in this study is fundamental to the identification of the Sporothrix complex.     

Selenium-containing tRNAs from Clostridium sticklandii. Cochromatography of seleno-tRNA I with l-valyl-tRNA

It has been previously shown that Clostridium sticklandii specifically synthesized three readily separable ⁷⁵Se-labeled tRNAs, designated seleno-tRNAs I, II and III, and the partially purified seleno-tRNA II cochromatographed with l-prolyl-tRNA on DEAE-Sephadex A-50 (Chen, C.S. and Stadtman, T.C. (1980) Proc. Natl. Acad. Sci. U.S.A. 77, 1403–1407). In the present study a highly purified ⁷⁵Se-labeled tRNA I was obtained by chromatography on benzoylated DEAE-cellulose, DEAE-Sephadex A-50 and Sepharose 4B. The ⁷⁵Se-labeled tRNA I cochromatographed with an l-valine-accepting species on DEAE-Sephadex A-50 and Sepharose 4B. Addition of a 285-fold molar excess of unlabeled l-valine to the l-valine acceptor activity assay mixture markedly decreased the amount of l-[¹⁴C]valine bound to seleno-tRNA I.     

Molecular Identification and Antifungal Susceptibility of Clinical Isolates of Sporothrix schenckii Complex in Medellin,Colombia

Background

Sporotrichosis is a subcutaneous mycosis that affects humans and other animals. Infection prevails in tropical and subtropical countries. Until a few years ago, it was considered that two varieties of Sporothrix schenckii caused this mycosis, but by applying molecular taxonomic markers, it has been demonstrated that there are several cryptic species within S. schenckii complex which varies in susceptibility, virulence, and geographic distribution.

Objective

This study aimed to identify the clinical isolates of Sporothrix spp. from patients with sporotrichosis in Medellin, Colombia, using two markers and to evaluate the in vitro susceptibility to itraconazole.

Methods

Thirty-four clinical isolates of Sporothrix spp. from Colombia, three from Mexico, and one from Guatemala were identified through sequencing of the noncoding region ITS-1?+?5.8SDNAr?+?ITS-2 and of the fragment containing exons 3 and 4 of the β-tubulin gene. Clinical isolate sequences were compared with GenBank reference sequences using the BLASTN tool, and then, phylogenetic analysis was performed. Besides, the in vitro susceptibility to itraconazole was evaluated by determining the minimum inhibitory concentrations according to the CLSI M38-A2 method.

Results

Clinical isolates were identified by morphology as Sporothrix spp. Using the molecular markers, ITS and β-tubulin, isolates were identified as S. schenckii sensu stricto (25) and Sporothrix globosa (13). Susceptibility to itraconazole was variable among clinical isolates.

Conclusion

This is the first scientific publication that identifies species that cause sporotrichosis in Colombia, along with the antifungal susceptibility to itraconazole.

     

Sporotrichosis in Rio de Janeiro,Brazil: Sporothrix brasiliensis Is Associated with Atypical Clinical Presentations

Background

There have been several recent changes in the taxonomy of Sporothrix schenckii as well as new observations regarding the clinical aspects of sporotrichosis. In this study, we determined the identification of the Sporothrix species associated with both classic and unusual clinical aspects of sporotrichosis observed in the endemic area of sporotrichosis in Rio de Janeiro, Brazil.

Methodology/Principal Findings

To verify whether S. brasiliensis is associated with clinical manifestations of sporotrichosis, a cross-sectional study was performed in which Sporothrix isolates from 50 patients with different clinical manifestations were analyzed and their isolates were studied by phenotypic and genotypic methods. Data from these patients revealed a distinct clinical picture and therapeutic response in infections caused by Sporothrix brasiliensis (n = 45) compared to patients with S. schenckii sensu stricto (n = 5). S. brasiliensis was associated with disseminated cutaneous infection without underlying disease, hypersensitivity reactions, and mucosal infection, whereas patients with S. schenckii presented with less severe and more often localized disease, similar to the majority of previously described sporotrichosis cases. Interestingly, S. brasiliensis-infected patients overall required shorter durations of itraconazole (median 16 weeks) compared to the individuals with S. schenckii (median 24 weeks).

Conclusions/Significance

These findings suggest that Sporothrix species are linked to different clinical manifestations of sporotrichosis and that S. brasiliensis is effectively treated with oral itraconazole.     

Sporothrix schenckii sensu stricto Isolated from Soil in an Armadillo’s Burrow

Sporotrichosis is a polymorphic disease of man and animals caused by traumatic implantation of propagules into the skin and subcutaneous tissue. Pathogenic species includes S. brasiliensis, S. schenckii, S. globosa and S. luriei. The disease is remarkable for its occurrence as sapronoses and/or zoonosis outbreaks in tropical and subtropical areas; although, the ecology of the clinical clade is still puzzling. Here, we describe an anamorphic Sporothrix strain isolated from soil in an armadillo’s burrow, which was located in a hyper endemic area of Paracoccidioidomycosis in Brazil. This isolate was identified as S. schenckii sensu stricto (Clade IIa) based on morphological and physiological characteristics and phylogenetic analyses of calmodulin sequences. We then discuss the role of the nine-banded armadillo Dasypus novemcinctus as a natural carrier of Sporothrix propagules to better understand Sporothrix sources in nature and reveal essential aspects about the pathogen’s eco-epidemiology.     

Asexual Propagation of a Virulent Clone Complex in a Human and Feline Outbreak of Sporotrichosis

Sporotrichosis is one of the most frequent subcutaneous fungal infections in humans and animals caused by members of the plant-associated, dimorphic genus Sporothrix. Three of the four medically important Sporothrix species found in Brazil have been considered asexual as no sexual stage has ever been reported in Sporothrix schenckii, Sporothrix brasiliensis, or Sporothrix globosa. We have identified the mating type (MAT) loci in the S. schenckii (strain 1099-18/ATCC MYA-4821) and S. brasiliensis (strain 5110/ATCC MYA-4823) genomes by using comparative genomic approaches to determine the mating type ratio in these pathogen populations. Our analysis revealed the presence of a MAT1-1 locus in S. schenckii while a MAT1-2 locus was found in S. brasiliensis representing genomic synteny to other Sordariomycetes. Furthermore, the components of the mitogen-activated protein kinase (MAPK)-pheromone pathway, pheromone processing enzymes, and meiotic regulators have also been identified in the two pathogens, suggesting the potential for sexual reproduction. The ratio of MAT1-1 to MAT1-2 was not significantly different from 1:1 for all three Sporothrix species, but the population of S. brasiliensis in the outbreaks originated from a single mating type. We also explored the population genetic structure of these pathogens using sequence data of two loci to improve our knowledge of the pattern of geographic distribution, genetic variation, and virulence phenotypes. Population genetics data showed significant population differentiation and clonality with a low level of haplotype diversity in S. brasiliensis isolates from different regions of sporotrichosis outbreaks in Brazil. In contrast, S. schenckii isolates demonstrated a high degree of genetic variability without significant geographic differentiation, indicating the presence of recombination. This study demonstrated that two species causing the same disease have contrasting reproductive strategies and genetic variability patterns.     

Melanin biosynthesis in pathogenic species of Sporothrix

Melanins are dark polymers found in the cell wall of pathogenic fungi, including species from the genus Sporothrix that are causative agents of sporotrichosis. In vitro experiments strongly suggest that these pigments are important for fungal virulence and survival in the host. In S. schenckii, melanin biosynthesis occurs via three different common pathways, which generate dihydroxynaphthalene (DHN)-melanin, DOPA-melanin or pyomelanin. Moreover, melanin biosynthesis can be enhanced when the fungus is in contact with some bacteria, such as Pseudomonas aeruginosa and Klebsiella pneumoniae. Melanin pigments have protective effects against antifungals in this genus. New scanning transmission electron tomography data indicates the accumulation of dark pigments in membrane-bound cytoplasmic organelles (melanosomes) in S. schenckii yeasts. Here, we provide an up to date of review the biosynthesis and role of melanins and discuss its roles on the cell biology and pathogenesis of Sporothrix spp.     

Two new species ofSporothrix and their relation toBlastobotrys nivea

Two new species ofSporothrix are described:S. cyanescens, isolated from human skin andS. fungorum from fungal carpophores. Both species may form secondary blastoconidia; they resembleBlastobotrys nivea in several respects. The latter species is distinct by the shape of the conidiophores.     

Selenium-containing tRNAs from Clostridium sticklandii. Cochromatography of seleno-tRNA I with l-valyl-tRNA

It has been previously shown that Clostridium sticklandii specifically synthesized three readily separable ⁷⁵Se-labeled tRNAs, designated seleno-tRNAs I, II and III, and the partially purified seleno-tRNA II cochromatographed with l-prolyl-tRNA on DEAE-Sephadex A-50 (Chen, C.S. and Stadtman, T.C. (1980) Proc. Natl. Acad. Sci. U.S.A. 77, 1403–1407). In the present study a highly purified ⁷⁵Se-labeled tRNA I was obtained by chromatography on benzoylated DEAE-cellulose, DEAE-Sephadex A-50 and Sepharose 4B. The ⁷⁵Se-labeled tRNA I cochromatographed with an l-valine-accepting species on DEAE-Sephadex A-50 and Sepharose 4B. Addition of a 285-fold molar excess of unlabeled l-valine to the l-valine acceptor activity assay mixture markedly decreased the amount of l-[¹⁴C]valine bound to seleno-tRNA I.     

A new duplex PCR assay for the rapid screening of mating-type idiomorphs of pathogenic Sporothrix species

Sporothrix schenckii and allied species are thermodimorphic fungi widely distributed in nature which causes human and animal sporotrichosis, the most common subcutaneous mycosis globally. Sporotrichosis is acquired after a traumatic inoculation of soil or plant material contaminated with Sporothrix propagules or through bites and scratches from diseased cats. In Ascomycota, the master regulators of sex are MAT genes that lie in a single mating-type locus, in Sporothrix these are determined by two nonhomologous alleles, MAT1-1 and MAT1-2. We assessed the whole-genome sequences of medically relevant Sporothrix to develop a single-tube duplex PCR assay to screen S. brasiliensis, S. schenckii, S. globosa, and S. luriei idiomorphs (MAT1-1 or MAT1-2) and understand the distribution and incidence of mating-type strains from natural populations. Using our duplex PCR assay, a 673 bp amplicon (α-box protein) was consistently amplified from all MAT1-1 isolates, while a 291 bp fragment was only amplified from the isolates harboring MAT1-2 (HMG box). Molecular evidence suggests heterothallism (self-sterility) as the unique mating strategy among the species evaluated. The mating-type identity of 93 isolates revealed a nearly equal distribution (1:1 ratio) of mating type alleles within species but deviating between different outbreak areas. Remarkably, for S. brasiliensis in Rio de Janeiro, we report an overwhelming occurrence of MAT1-2 (1:13 ratio; χ² = 10.286, P = 0.0013) opposing the high prevalence MAT1-1 in the Rio Grande do Sul (10:1 ratio; χ² = 7.364, P = 0.0067). Therefore, the population structure of Sporothrix species refers from paucity to regular cycles of sexual recombination in most of the studied regions. Our PCR-based mating-type diagnostic assay is proposed here as an important marker to track the geographical expansion during the long-lasting outbreak of cat-transmitted sporotrichosis driven by S. brasiliensis.     

Sporotrichosis Treatment: Overview and Update

Sporotrichosis, caused by several species from the genus Sporothrix, mainly affects men working in agricultural labor. It is reported mostly from endemic regions located in tropical and subtropical areas. Sporotrichosis usually affects subcutaneous tissue with no symptoms or mild symptoms, but it causes disseminated and even fatal disease if the patient is immunocompromised. Significant progress in the knowledge of etiologic agents of sporotrichosis has been achieved recently, but evaluations of treatment using well-designed clinical trials have been neglected. This article reviews the drugs currently used to treat subcutaneous disease, describing the differences in their efficacy, and reviews recent findings about the proposed new Sporothrix species of clinical interest, as well as the role of melanin as a virulence factor in Sporothrix schenckii.