Cladosporium cladosporioides and Cladosporium pseudocladosporioides as potential new fungal antagonists of Puccinia horiana Henn., the causal agent of chrysanthemum white rust

Puccinia horiana Hennings, the causal agent of chrysanthemum white rust, is a worldwide quarantine organism and one of the most important fungal pathogens of Chrysanthemum × morifolium cultivars, which are used for cut flowers and as potted plants in commercial production regions of the world. It was previously reported to be controlled by Lecanicillium lecanii, Cladosporium sphaerospermum, C. uredinicola and Aphanocladium album, due to their antagonistic and hyperparasitic effects. We report novel antagonist species on Puccinia horiana. Fungi isolated from rust pustules in a commercial greenhouse from Villa Guerrero, México, were identified as Cladosporium cladosporioides and Cladosporium pseudocladosporioides based upon molecular analysis and morphological characters. The antagonism of C. cladosporioides and C. pseudocladosporioides on chrysanthemum white rust was studied using light and electron microscopy in vitro at the host/parasite interface. Cladosporium cladosporioides and C. pseudocladosporioides grew towards the white rust teliospores and colonized the sporogenous cells, but no direct penetration of teliospores was observed; however, the structure and cytoplasm of teliospores were altered. The two Cladosporium spp. were able to grow on media containing laminarin, but not when chitin was used as the sole carbon source; these results suggest that they are able to produce glucanases. Results from the study indicate that both Cladosporium species had potential as biological control agents of chrysanthemum white rust.

Ecthyma-like phaeohyphomycosis caused by Cladosporium cladosporioides

A case of cutaneous phaeohyphomycosis caused by Cladosporium cladosporioides in a 50-year-old housewife is described. The clinical presentation was an ecthyma-like crusted lesion on the back of her left hand. Scanning electron microscopy of the culture showed the conidiophores and the limoniform or ellipsoidal conidia, with a slightly verrucous surface. The lesion was removed surgically, with no relapses after 6-month follow up.

Treatment of fungal bioaerosols by a high-temperature, short-time process in a continuous-flow system

Airborne fungi, termed fungal bioaerosols, have received attention due to the association with public health problems and the effects on living organisms in nature. There are growing concerns that fungal bioaerosols are relevant to the occurrence of allergies, opportunistic diseases in hospitals, and outbreaks of plant diseases. The search for ways of preventing and curing the harmful effects of fungal bioaerosols has created a high demand for the study and development of an efficient method of controlling bioaerosols. However, almost all modern microbiological studies and theories have focused on microorganisms in liquid and solid phases. We investigated the thermal heating effects on fungal bioaerosols in a continuous-flow environment. Although the thermal heating process has long been a traditional method of controlling microorganisms, the effect of a continuous high-temperature, short-time (HTST) process on airborne microorganisms has not been quantitatively investigated in terms of various aerosol properties. Our experimental results show that the geometric mean diameter of the tested fungal bioaerosols decreased when they were exposed to increases in the surrounding temperature. The HTST process produced a significant decline in the (1-->3)-beta-d-glucan concentration of fungal bioaerosols. More than 99% of the Aspergillus versicolor and Cladosporium cladosporioides bioaerosols lost their culturability in about 0.2 s when the surrounding temperature exceeded 350 degrees C and 400 degrees C, respectively. The instantaneous exposure to high temperature significantly changed the surface morphology of the fungal bioaerosols.

Intracellular sequestration of manganese and phosphorus in a metal-resistant fungus Cladosporium cladosporioides from deep-sea sediment

A heavy metal resistant fungus was isolated from the sediment of Pacific Ocean, and identified to be Cladosporium cladosporioides. It grew normally in a medium containing 60 mM Mn(2+) and could endure 1,200 mM as the highest concentration tested. Quantification analysis confirmed a high accumulation of Mn which was 58 mg/g in dried biomass. Under transmission electron microscope, many intracellular crystals were observed in the cytoplasm of the hypha cells grown in a Mn-rich medium, and varied from a few nanometers to 200 nm in length. Energy dispersive X-ray (EDX) analysis showed that the crystals were composed of manganese and phosphorus in atomic ratio of 1.6:1 (Mn/P). Further, factors which might influence the resistance of this fungus were investigated. As a result, its high resistance to Mn(2+) was found dependent on the presence of Mg(2+), and could be further enhanced by phosphate. However, the effect of phosphate was not observed without the presence of Mg(2+). In addition, the resistance was also influenced by pH of the medium, which was lost above pH 8. This is the first report on a fungus which showed a hyper resistance to manganese by forming a large quantity of intracellular Mn/P crystals.

Cladosporium fulvum Avr4 protects fungal cell walls against hydrolysis by plant chitinases accumulating during infection

Resistance against the leaf mold fungus Cladosporium fulvum is mediated by the tomato Cf proteins which belong to the class of receptor-like proteins and indirectly recognize extracellular avirulence proteins (Avrs) of the fungus. Apart from triggering disease resistance, Avrs are believed to play a role in pathogenicity or virulence of C. fulvum. Here, we report on the avirulence protein Avr4, which is a chitin-binding lectin containing an invertebrate chitin-binding domain (CBM14). This domain is found in many eukaryotes, but has not yet been described in fungal or plant genomes. We found that interaction of Avr4 with chitin is specific, because it does not interact with other cell wall polysaccharides. Avr4 binds to chitin oligomers with a minimal length of three N-acetyl glucosamine residues. In vitro, Avr4 protects chitin against hydrolysis by plant chitinases. Avr4 also binds to chitin in cell walls of the fungi Trichoderma viride and Fusarium solani f. sp. phaseoli and protects these fungi against normally deleterious concentrations of plant chitinases. In situ fluorescence studies showed that Avr4 also binds to cell walls of C. fulvum during infection of tomato, where it most likely protects the fungus against tomato chitinases, suggesting that Avr4 is a counter-defensive virulence factor.

Immunochemical comparison of the allergenic potency of spores and mycelium of Cladosporium cladosporioides extracts by a nitrocellulose electroblotting technique

BACKGROUND

The lack of well standardized or characterized extracts that contain the relevant allergens of the appropriate fungus is resulting in a high heterogeneity of the commercial preparation.

MATERIAL AND METHODS

Immunochemical detection of the allergens composition of spore and mycelium of C. cladosporioides was studied by electroblotting using sera from Cladosporium allergic patients and 125 I- anti- human IgE. A MW range of allergens between 16 to 88 KDa was identified. The most important with a MW of 16, 20,30, 39, 43, 50, 60 and 88 KDa.

RESULTS

The allergenic composition of spore and mycelium looked very similar. However, partial or total inhibition of the serum with a conidial or mycelial extract demonstrated that the total concentration of allergens (particulary 20 and 60 KDa molecules) was higher in the conidium than in the mycelium.

CONCLUSIONS

These results indicated that conidium and mycelium contained the same allergenic determinants but at different concentration in the two propagule. Results with 50 % inhibited sera demonstrated also that the total concentration of allergens was higher in the conidium than in the mycelium.

Morphological Significance of Cladosporium Contaminants on Materials and Utensils in Contact with Food

Cladosporium contaminants on materials and utensils that come into contact with food were morphologically investigated. The most common contaminants, C. cladosporioides and C. sphaerospermum, were detected on the samples. The morphological changes of the Cladosporium species were investigated by using stereoscopic, optical light, fluorescent, and scanning electron microscopes. Microscopically the Cladosporium contaminants were observed as aggregated dark brown spots, strongly pigmented, irregularly swollen, and in long chains. Using fluorescent microscopy, the Cladosporium mycelia were clearly stained with fluorescein diacetate as viable cells, but the old cells were mostly non-viable, as shown by staining with propidium iodide. The dynamics of the morphological changes showed that the penetrating mycelia were closely attached to the surface of the materials and utensils under investigation. These results provide information about the significance of Cladosporium contamination on materials and utensils in contact with food and may contribute to the control of fungal contamination.

Comparison of the allergenic potency of spores and mycelium of Cladosporium

The allergenic potency of spore and mycelium extracts of Cladosporium was estimated by RAST, RAST inhibition and PCA tests. Spores contained a concentration of allergens higher than mycelia. Results of PCA tests suggested that spores contained specific allergens. However, in a comparative study of extracts from different species of Cladosporium animal and human models gave different estimates of the allergenic potency of the different species. In spite of these variations it was shown that extracts from spores of Cladosporium contained the highest amount of Cladosporium allergens.

Biosorption of organochlorine pesticides using fungal biomass

Cladosporium strain AJR(3)18501 was tested for its ability to sorb the organochlorine pesticide (OCP) p,p'-DDT from aqueous media. When p,p'-DDT was added to distilled water, ethanol or 1-propanol solutions in excess of its solubility, p,p'-DDT was sorbed onto the fungal biomass. Increasing the amount of p,p'-DDT in solution by changing the medium composition increased sorbent uptake: p,p'-DDT uptake by the fungal biomass was 2.5 times greater in 25% 1-propanol (17 mg of p,p'-DDT g(-1) dry weight fungal biomass) than in distilled water. When p,p'-DDT was dissolved in 25% 1-propanol (12 mg x l(-1)), rapid p,p'-DDT sorption occurred during the first 60 min of incubation. p,p'-DDT in solution was reduced to 2.5 mg x l(-1) with the remaining p,p'-DDT recovered from the fungal biomass. A number of environmental parameters were tested to determine their effect on p,p'-DDT biosorption. As arsenic (As) is prevalent at DDT-contaminated cattle dip sites, its effect on p,p'-DDT uptake was determined. The presence of As [As(III) or As(V) up to 50 mg x l(-1)] did not inhibit p,p'-DDT uptake and neither As species could be sorbed by the fungal biomass. Changing the pH of the medium from pH 3 to 10 had a small effect on p,p'-DDT sorption at low pH indicating that an ion exchange process is not the major mechanism for p,p'-DDT sorption. Other mechanisms such as Van der Waals forces, chemical binding, hydrogen bonding or ligand exchange may be involved in p,p'-DDT uptake by Cladosporium strain AJR(3)18501.

Cladospolide D, a new 12-membered macrolide antibiotic produced by Cladosporium sp. FT-0012

A new antibiotic termed cladospolide D was isolated along with the known cladospolides A and B from the fermentation broth of Cladosporium sp. FT-0012 by solvent extraction, ODS column chromatography and preparative HPLC. The structure of cladospolide D was deduced to be (E)-2-dodecen-5-hydroxy-11-olide-4-one. Cladospolide D showed antifungal activity against Pyricularia oryzae and Mucor racemosus.

Case report. Cutaneous phaeohyphomycosis caused by Cladosporium oxysporum

The case of a 66-year-old woman with Cushing syndrome and a 1-year history of papulo-nodular lesions on the right leg is reported. Biopsy revealed septate hyphae and yeast-like cells in granulomatous dermo-hypodermal lesions. Culture of biopsy fragments on Sabouraud glucose agar without cycloheximide produced colonies that were olive green on top and greenish black underneath. On the basis of microscope findings and scanning electron microscopy observation of fragments of colonies, a diagnosis of cutaneous phaeohyphomycosis due to Cladosporium oxysporum was made. The patient was initially treated with itraconazole, which led to clinical improvement, but mycological recovery was obtained after a course of ketoconazole, made necessary by the presence of pituitary adenoma. To our knowledge, this is the first reported case of subcutaneous phaeohyphomycosis due to Cl. oxysporum.

Cutaneous phaeohyphomycosis due to Cladophialophora bantiana

We present a case of cutaneous infection due to Cladophialophora bantiana, an agent of phaeohyphomycosis. The patient developed a nodule with pustule formation on the dorsum of the left hand; no trauma was reported. The lesion was successfully treated with itraconazole and surgical excision. Histopathologically, there was a blastomycosis-like tissue reaction pattern. Pigmented organisms were readily identified in tissue sections, and the cultural characteristics were those of Cladophialophora bantiana. This organism, known primarily for intracerebral involvement, can rarely produce cutaneous and subcutaneous infection. Immunosuppression should be suspected but is not always clinically apparent, as was demonstrated by our case.

[Histopathology and ultrastructure of chromomycosis caused by Cladosporium carrionii]

Light and electron microscopic study of chromomycosis caused by C. carrionii was undertaken. Biopsies from 10 patients were taken and processed by means of conventional histopathologic techniques of hematoxylin and eosine and by transmission electron microscopy. Granulomatous and suppurative components of the infection process were observed by the histological procedure, other cellular elements such as lymphocytes, plasma cells, eosinophils and Langerhans cells were present. The fungus was observed free or within phagocyticcells. Ultrastructural evidence revealed that it was surrounded by a wide multilayered and electron dense cell wall. Its cytoplasmic membrane presented invaginations and vacuoles containing the electron-dense material. We suggest the existence of a secretion-excretion process of a melanin-like dark pigment, which is accumulated on the cell wall of fungus, increasing the resistance of fungal cell to its destruction by phagocytic cell. It is necessary to determine the exact role of Langerhans cells in chromomycosis caused by C. carrionii.

Conidial surface ultrastructure of human-pathogenic and saprobic Cladosporium species

Freeze-fracturing of outer wall layers of Cladosporium conidia revealed two types of ultrastructure, coinciding with taxonomic characteristics. The outer conidial layers were essentially smooth in the human pathogenic species, C. bantianum, C. carrionii, and C. trichoides. In contrast, mosaic arrays of rodlets on conidia were observed with freeze-fracturing in the saprobic species, C. cladosporioides, C. coralloides, C. herbarum, C. sphaerospermum, and C. variabile. Conidia of C. elatum were an exception among the saprobic species as they had smooth surfaces. The present study supports the suggestion that the human pathogenic Cladosporium species should be transferred to another genus.

Cerebral phaeohyphomycosis

A 14-year-old girl with a rare form of fungal brain abscess involving the dura and brain parenchyma is reported. No portal of entry of the infection was found. Histological findings and fungal culture both indicated that the causative agent was Xylohypha bantiana, an uncommon dematiaceous fungus. A review of the literature suggests that this infection, which affects primarily young male patients, exhibits distinct neurotropism. Despite therapy, the prognosis is generally poor.

CfT-I: an LTR-retrotransposon in Cladosporium fulvum, a fungal pathogen of tomato

A retrotransposon from the fungal tomato pathogen Cladosporium fulvum (syn. Fulvia fulva) has been isolated and characterised. It is 6968 bp in length and bounded by identical long terminal repeats of 427 bp; 5 bp target-site duplications were found. Putative first- and second-strand primer binding sites were identified. Three long open reading frames (ORFs) are predicted from the sequence. The first has homology to retroviral gag genes. The second includes sequences homologous to protease, reverse transcriptase, RNAse H and integrase, in that order. Sequence comparisons of the predicted ORFs indicate that this element is closely related to the gypsy class of LTR retrotransposons. Races of the pathogen exhibit polymorphisms in their complement of at least 25 copies of the sequence. Virus-like particles which co-sediment with reverse transcriptase activity were observed in homogenates of the fungus. This is the first report of an LTR retrotransposon in a filamentous fungus.

Release of allergens from Cladosporium conidia

Sugars and proteins are released from conidia of Cladosporium cladosporioides after incubation in various chemical solutions. Ultrastructural studies demonstrated that these exudates contained components from the outer wall layer and from internal compartments (inner wall and cytoplasm). The allergenicity of the extracts was evaluated using a passive cutaneous anaphylaxis test and radioallergosorbent test. Spore exudates obtained with Tris, NaOH or NaCl displayed the highest allergenic potency. The amount of allergens released was dependent on the incubation media, on the extraction time and on the spore concentration.

Ultrastructure and composition of the conidial wall of Cladosporium cladosporioides

Transmission electron microscopy revealed that the conidial wall of Cladosporium cladosporioides was constituted of an electron-lucent inner layer and an electron-dense outer layer. The conidial surface is covered by rodlet fascicles which can be removed by ultrasonication. Ultrastructurally, the 100,000 X g ultracentrifugation pellet of the ultrasonicated extract containing the rodlet layer appeared as an amorphous structure containing probably internal wall material anchoring the rodlet fascicles on the wall. The total conidial wall was essentially composed of beta(1----3)glucans and melanin. Lipid, salt, and galactan represented the main components of the 100,000 X g ultracentrifugation pellet of the ultrasonicated extract. Cladosporium cladosporioides produced melanin via the pentaketide pathway. Tricyclazole inhibited melanin synthesis but did not interfere with allergen production. This suggests that the wall components associated with melanin are not allergenic factors.

Role of the fungal cell wall in the granulomatous response of mice to the agents of chromomycosis

Mice were given, intraperitoneally, inocula of a cell-wall preparation and fractions thereof from Fonsecaea pedrosoi, F. compactum, Cladosporium carrioni and Phialophora verrucosum. Large doses of cell-wall preparation, with or without trypsin treatment, produced a pronounced loss of body weight, a granulomatous reaction and, sometimes, death. After extraction of the cell wall preparation with 1N NaOH, three fractions were obtained: an alkali-insoluble fraction 1; an alkali-soluble acid-insoluble fraction 2; and an alkali- and acid-soluble fraction 3. Intravenous administration showed that only fraction 1 induced a granulomatous reaction and death in mice.

Study of the conidial development and cleistothecium-like structure of some strains of Fonsecaea pedrosoi. Comparison with other close Dematiaeae

The production of twenty-seven strains of Fonsecaea pedrosoi was studied. The denticulate type (asexual reproduction) showed three morphological variations: medium-size, long and sessile forms. These forms can be used to characterize the different strains isolated especially for epidemiological purposes. Only one strain (MR 1335) isolated from a chromomycosis case in Martinique showed a cleistothecium-like structure. This formation was compared to that observed in Phialophora verrucosa, another agent of chromomycosis, and to the cleistothecium of Dictyotrichiella mansonii, the perfect state of Wangiella mansonii which is a saprophyte fungus.

Ultrastructural changes in Cladosporium cucumerinum during pathogenesis

Three ultrastructural patterns, each one associated with a different stage of pathogenesis, were observed in Cladosporium cucumerinum infecting cucumber cytoledons. (i) Fungal prepenetration structures (conidia and germ tubes) contained numberous lipid bodies. Microbodies were abundant and often associated with lipid bodies. Mitochondria were also abundant. (ii) During the invasion stage, no lipid bodies and relatively few microbodies were observed. Mitochondria were abundant, but differed markedly morphologically from those observed in the prepenetration structures. (iii) In the colonizing hyphae, microbodies were the most abundant organelle, lipid bodies were seldom found, and mitochondria were as observed during invasion. These changes in numbers of organelles may be associated with differences in the metabolic activities of the pathogen at various stages of pathogenesis.