Soil samples from sporotrichosis transmission belt area: Searching for fungal species and their antagonistic activity against Sporothrix brasiliensis.

Since 1998, the state of Rio de Janeiro, Brazil, has become a public health problem regarding sporotrichosis, a disease caused by Sporothrix spp. involving contact with infected cats. Efforts to isolate these species from environmental sources are not always successful. In our study, soil from residences situated in cities of Rio de Janeiro where cats with sporotrichosis live was collected and cultured an attempt to isolate Sporothrix spp. but it was not successful. However, other saprophytic fungal species were isolated from soil and identified and among them Purpureocillium lilacinum was the most frequent. From there, we decided to study the in vitro interaction of this species with S. brasiliensis, the principal agent that causes sporotrichosis in this state. The results showed that ten isolates of P. lilacinum inhibited the radial mycelial growth of S. brasiliensis with different percentage of inhibition. The interaction between them revealed the pattern described as overgrowth by antagonist. In conclusion, our data suggest that fungal species with very fast growth and capable of producing metabolites could hinder the growth of Sporothrix spp., it also opens the way for the identification of secondary metabolites with biological activity that could be tested against pathogenic fungi.

Preservation Methods in Isolates of Sporothrix Characterized by Polyphasic Approach.

Sporotrichosis is a subcutaneous mycosis with worldwide distribution and caused by eight pathogenic species of the Sporothrix genus. Different ex situ preservation methods are used around the world to maintain the survival, morphophysiological and genetic traits of fungal strains isolated from patients with sporotrichosis for long terms. The main aim of the present study was to evaluate the survival, phenotypic and genotypic stability of Sporothrix strains after preservation on PDA slant stored at 4 °C, sterile water and cryopreservation at -80 °C, for a period of time of 6, 12, 18 and 24 months of storage. Eight clinical Sporothrix isolates were identified based on a polyphasic approach consisting of classical macro- and micro-morphological traits, biochemical assays, proteomic profiles by MALDI-TOF MS and molecular biology. According to the final identification, one strain was identified as S. schenckii (CMRVS 40428) and seven strains were re-identified as S. brasiliensis (CMRVS 40421, CMRVS 40423, CMRVS 40424, CMRVS 40425, CMRVS 40426, CMRVS 40427 and CMRVS 40433). In addition, it was observed that the isolates survived after the different time points of storage in distilled water, PDA slant and cryopreservation at -80 °C. For fungi preserved in water, low polymorphisms were detected by the partial sequencing of ß-tubulin. Cryopreservation at -80 °C induced morphological changes in one single isolate. The proteomic profiles obtained by MALDI-TOF MS after preservation showed differences among the methods. In conclusion, preservation on agar slant stored at 4 °C was the most effective method to preserve the eight clinical Sporothrix strains. This method produced less change in the phenotypic traits and kept the genetic integrity of all strains. Agar slant stored at 4 °C is a simple and inexpensive method and can be especially used in culture collections of limited funding and resources.

Identification by MALDI-TOF MS of Sporothrix brasiliensis Isolated from a Subconjunctival Infiltrative Lesion in an Immunocompetent Patient.

Sporotrichosis is a globally distributed subcutaneous fungal infection caused by dimorphic fungi belonging to the Sporothrix species complex that affects the skin of limbs predominantly, but not exclusively. A rare case of ocular sporotrichosis in an immunocompetent Brazilian patient from the countryside of Rio de Janeiro State is reported. A 68-year-old woman presented with a subconjunctival infiltrative lesion in the right eye with pre-auricular lymphadenopathy of onset 4 months ago that evolved to suppurative nodular lesions on the eyelids. Conjunctival secretion was evaluated by histopathological examination and inoculated on Sabouraud Dextrose Agar (SDA). Histopathology showed oval bodies within giant cells and other mononucleated histiocytes. Fungus grown on SDA was identified as Sporothrix sp. by morphological observations. The isolated strain was finally identified by Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS) associated with an in-house database enriched with reference Sporothrix complex spectra. The strain presented a MALDI spectrum with the ion peaks of the molecular mass profile of S. brasiliensis. The patient was adequately treated with amphotericin B subsequently replaced by itraconazole. Due to scars left by the suppurative process, the patient presented poor final visual acuity. The present work presents an overview of ocular sporotrichosis and discusses the diagnostic difficulty that can lead to visual sequelae in these cases.

Molecular identification of the Sporothrix schenckii complex / Identificación molecular del complejo Sporothrix schenckii

Sporothrix schenckii, an ascomycetous dimorphic organism that for over a century was recognized as the sole agent of sporotrichosis, a subcutaneous mycosis with a worldwide distribution. However, it has been proposed, based on physiologic and molecular aspects, that S. schenckii is a complex of distinct species: Sporothrix brasiliensis, Sporothrix mexicana, Sporothrix globosa, S. schenckii sensu strictu, Sporothrix luriei, and Sporothrix albicans (formerly Sporothrix pallida). Human disease has a broad range of clinical manifestations and can be classified into fixed cutaneous, lymphocutaneous, disseminated cutaneous, and extracutaneous sporotrichosis. The gold standard for the diagnosis of sporotrichosis is the culture; however, serologic, histopathologic and molecular approaches have been recently adopted for the diagnosis of this mycosis. Few molecular methods have been applied to the diagnosis of sporotrichosis to detect S. schenckii DNA from clinical specimens, and to identify Sporothrix spp. in culture. Until now, Sporothrix is the unique clinically relevant dimorphic fungus without an elucidated genome sequence, thus limiting molecular knowledge about the cryptic species of this complex, and the sexual form of all S. schenckii complex species. In this review we shall focus on the current diagnosis of the sporotrichosis, and discuss the current molecular tools applied to the diagnosis and identification of the Sporothrix complex species. This manuscript is part of the series of works presented at the "V International Workshop: Molecular genetic approaches to the study of human pathogenic fungi" (Oaxaca, Mexico, 2012) (AU)

Sporothrix schenckii, un organismo ascomiceto dimorfo que durante más de un siglo fue reconocido como el único agente de esporotricosis, una micosis subcutánea con una amplia distribución mundial. Sin embargo, se ha propuesto, con base en los aspectos fisiológicos y moleculares, que S. schenckii es un complejo de especies distintas: Sporothrix brasiliensis, Sporothrix mexicana, Sporothrix globosa, S. schenckii sensu stricto, Sporothrix luriei y Sporothrix albicans (antes Sporothrix pallida). La enfermedad humana tiene una gama de manifestaciones clínicas y puede clasificar e cutánea fija, linfocutánea, cutánea diseminad y esporotricosis extracutánea. El estándar de oro para el diagnóstico de esporotricosis es el cultivo del patógeno, sin embargo, los métodos serológicos, histopatológicos y, recientemente, los moleculares se han usado para el diagnóstico de esta micosis Pocos métodos moleculares han sido aplicados para el diagnóstico de la esporotricosis para detectar ADN de S. schenckii a partir de muestras clínicas y para identificar Sporothrix spp. en cultivo. Hasta ahora, Sporothrix es el único hongo dimorfo clínicamente relevante sin una secuencia genómica elucidada, limitando el conocimiento molecular de las especies crípticas de este complejo y la forma sexual de todas las especies del complejo S. schenckii. Esta revisión se centrará en el diagnóstico actual de la esporotricosis con énfasis en las herramientas moleculares vigentes aplicadas tanto al diagnóstico como en la identificación de las especies del complejo Sporothrix. Este artículo científico es parte de la serie de trabajos presentados en el «V International Workshop: Molecular genetic approaches to the study of human pathogenic fungi» (Oaxaca, México, 2012) (AU)

Sexual variability in Histoplasma capsulatum and its possible distribution: What is going on? / Variabilidad sexual de Histoplasma capsulatum y su posible distribución: fundamento

Histoplasma capsulatum is a dimorphic fungal pathogen naturally found in the soil. Inhalation of conidia can result in pulmonary histoplasmosis and, in some cases, causes severe disseminated disease and death. This fungus is an ascomycete that has an anamorphic or asexual stage and a teleomorphic or sexual stage, known as Ajellomyces capsulatus, which results from (+) and (−) mating types. Sexual reproduction is regulated by a specialized genomic region known as the mating-type (MAT1) locus. The mating process in this heterothallic species is represented by isolates that contain only one of the two different MAT1 locus idiomorphs (MAT1-1 or MAT1-2) that have unrelated sequences encoding different transcription factors. In medically important dimorphic pathogens and in most ascomycete molds, one MAT locus idiomorph encodes a high-mobility-group (HMG) box-domain transcription factor, and the other idiomorph encodes an alpha-box domain transcription factor. There is scarce molecular information about H. capsulatum mating type although recombinant population structures have been reported that could occur in nature and this process has been documented in distinct models such as parasites and other fungi. In this review, we shall focus on published studies on H. capsulatum sexuality, and outline the distribution of the two H. capsulatum mating types in Latin America (AU)

Histoplasma capsulatum es un patógeno fúngico, dimórfico que habita en suelos ricos en materia orgánica. La inhalación de los conidios puede inducir histoplasmosis pulmonar y, en algunos casos, enfermedad diseminada grave y la muerte. Este ascomiceto caracterizado por un estadio anamórfico asexual y un estado teleomórfico o sexual, conocido como Ajellomyces capsulatus, que es consecuencia de los tipos de apareamiento (MAT+ y MAT−) (mating-type, por sus siglas en inglés). La reproducción sexual está regulada por una región genómica especializada, conocida como locus MAT1. El proceso de apareamiento en esta especie heterotálica (o autoincompatible) está representado por aislamientos que solo contienen uno de los 2 diferentes idiomorfos del locus MAT1 (MAT1-1 y MAT1-2), que tienen secuencias muy distintas que codifican diferentes factores de transcripción. En los patógenos dimórficos importantes desde un punto de vista médico y en la mayoría de los ascomicetos filamentosos, un idiomorfo del locus MAT codifica el dominio-caja HMG (high-mobility-group, por sus siglas en inglés) de un factor de transcripción, y el otro idiomorfo codifica el dominio-caja alfa de otro factor de transcripción. Apenas disponemos de información molecular sobre el mating type de H. capsulatum, aunque se ha descrito que en la naturaleza podrían estar presentes estructuras de población recombinante. Este proceso se ha documentado en distintos modelos como parásitos y otros hongos. En esta revisión nos hemos centrado en los estudios publicados sobre la sexualidad de H. capsulatum, y hemos abordado la distribución de los 2 mating type de H. capsulatum en Sudamérica (AU)