ABSTRACT
BACKGROUND: Yarrowia lipolytica belongs to the normal human microbiota but is also found in substrates with high contents in lipids and used in biotechnological processes. It is sometimes reported as human pathogen and especially in catheter-related candidaemia. OBJECTIVES: Two apparently grouped cases of infections and/or contamination were reported involving 3 and 9 patients, respectively, in two hospitals. The goal of this study was to design a molecular tool to study the genetic diversity of Y lipolytica and confirm or not the common source of contamination during these grouped cases. METHODS: Given that there is no genotyping method, we used genomic markers assessed on environmental isolates to determine intra-species relationship. We selected five highly polymorphic intergenic regions, totalling more than 3200 bp and sequenced them for clinical (n = 20) and environmental (n = 14) isolates. Antifungal susceptibility was determined by EUCAST broth microdilution method. RESULTS: Multiple alignment of the five sequences revealed divergence of 0%-5.8% between isolates as compared to approximately 0.2%-0.25% after alignment of whole genomes, suggesting their potential usefulness to establish genetic relatedness. The analysis showed the multiple origins of the isolates. It uncovered two grouped case of fungaemia involving 3 and 2 patients, respectively. It also revealed several unrelated sporadic cases despite their temporal relationship and one probable laboratory contamination by a common yet uncovered source, explaining several consecutive positive cultures without infection. All isolates had high minimal inhibitory concentration (MIC) for flucytosine, the majority (14/34) was susceptible to fluconazole, and all to the other antifungal agents tested. CONCLUSION: This method could help elucidate cases related to the opportunistic pathogen Y lipolytica.
Subject(s)
Antifungal Agents/pharmacology , Disease Outbreaks , Genetic Variation , Yarrowia/drug effects , Yarrowia/genetics , Environmental Microbiology , Genome, Fungal , Humans , Microbial Sensitivity Tests , Mycoses/microbiology , Sequence Analysis, DNA , Yarrowia/pathogenicityABSTRACT
Yarrowia lipolytica is one of the most studied "non-conventional" yeast species capable of synthesizing a wide group of valuable metabolites, in particular lipases and other hydrolytic enzymes, microbial oil, citric acid, erythritol and γ-decalactone. Processes based on the yeast have GRAS status ("generally recognized as safe") given by Food and Drug Administration. The majority of research communications regarding to Y. lipolytica claim that the yeast species is non-pathogenic. In spite of that, Y. lipolytica, like other fungal species, can cause infections in immunocompromised and critically ill patients. The yeast possess features that facilitate invasion of the host cell (particularly production of hydrolytic enzymes), as well as the protection of the own cells, such as biofilm formation. The aim of this study was to present well-known yeast species Y. lipolytica as a rare opportunistic fungal pathogen. Possible pathogenicity and epidemiology of this yeast species were discussed. Antifungal drugs susceptibility and increasing resistance to azoles in Y. lipolytica yeasts were also presented.
Subject(s)
Opportunistic Infections/microbiology , Virulence Factors/metabolism , Yarrowia/drug effects , Yarrowia/pathogenicity , Antifungal Agents/pharmacology , Azoles/pharmacology , Biofilms/growth & development , Drug Resistance, Fungal , Fungemia/microbiology , Humans , Hydrolysis , Lipase/metabolism , Microbial Sensitivity Tests , Opportunistic Infections/epidemiology , Opportunistic Infections/prevention & control , Opportunistic Infections/therapy , Virulence Factors/genetics , Yarrowia/enzymology , Yarrowia/metabolismABSTRACT
Yarrowia lipolytica is ubiquitous in the environment, opportunistic, and might be considered as one of the causative agents of catheter-related candidemia. Our work aimed to study some virulence factors of Y. lipolytica such as hydrolases production and biofilm formation with comparison to the most frequent Candida specie in human disease. In sum, 58 clinical isolates of Y. lipolytica, 16 C. glabrata, and 12 C. albicans were collected from Intensive care unit (ICU). All were tested for enzymatic production and biofilm formation. All tested isolates of C. albicans and C. glabrata were able to degrade casein, and 98.2% of Y. lipolytica showed caseinase activity but no gelatinase activity was detected in all isolates. Y. lipolytica strains showed significantly lower (3.4%) in vitro phospholipase activity than C. albicans and C. glabrata (P < .05). No significant differences of the hemolytic activity were detected between the three species (P > .05). Concerning biofilm formation, and unlike the results obtained on polystyrene plate, the number of adhered and biofilm cultivable cells obtained by Y. lipolytica after 168 hours of catheter subcutaneous implantation is significantly greater and tends to be more compact and structured hyphal layer. Although C. albicans remains the most pathogenic yeast, development of selective ability of Y. lipolytica to adhere, to form a biofilm on catheter medical devices, and to produce phospholipase and hemolytic enzyme is of particular interest, and it is strongly recommended to be vigilant in the use of medical implanted medical devices, particularly in ICU.
Subject(s)
Biofilms/growth & development , Fungemia/microbiology , Virulence Factors/analysis , Yarrowia/physiology , Yarrowia/pathogenicity , Adult , Animals , Candida/isolation & purification , Candida/pathogenicity , Candida/physiology , Catheters/microbiology , Female , Hemolysin Proteins/analysis , Humans , Hydrolases/analysis , Male , Models, Animal , Rats , Yarrowia/isolation & purificationABSTRACT
ScOpi1p is a well-characterized transcriptional repressor and master regulator of inositol and phospholipid biosynthetic genes in the baker's yeast Saccharomyces cerevisiae. An ortholog has been shown to perform a similar function in the pathogenic fungus Candida glabrata, but with the distinction that CgOpi1p is essential for growth in this organism. However, in the more distantly related yeast Yarrowia lipolytica, the OPI1 homolog was not found to regulate inositol biosynthesis, but alkane oxidation. In Candida albicans, the most common cause of human candidiasis, its Opi1p homolog, CaOpi1p, has been shown to complement a S. cerevisiae opi1∆ mutant for inositol biosynthesis regulation when heterologously expressed, suggesting it might serve a similar role in this pathogen. This was tested in the pathogen directly in this report by disrupting the OPI1 homolog and examining its phenotypes. It was discovered that the OPI1 homolog does not regulate INO1 expression in C. albicans, but it does control SAP2 expression in response to bovine serum albumin containing media. Meanwhile, we found that CaOpi1 represses filamentous growth at lower temperatures (30 °C) on agar, but not in liquid media. Although, the mutant does not affect virulence in a mouse model of systemic infection, it does affect virulence in a rat model of vaginitis. This may be because Opi1p regulates expression of the SAP2 protease, which is required for rat vaginal infections.
Subject(s)
Candida albicans/metabolism , Candida albicans/pathogenicity , Fungal Proteins/metabolism , Animals , Aspartic Acid Endopeptidases/genetics , Aspartic Acid Endopeptidases/metabolism , Candida albicans/growth & development , Fungal Proteins/genetics , Gene Expression Regulation, Fungal , Inositol/metabolism , Mice , Virulence , Yarrowia/growth & development , Yarrowia/metabolism , Yarrowia/pathogenicityABSTRACT
Yarrowia lipolytica has been developed as a production host for a large variety of biotechnological applications. Efficacy and safety studies have demonstrated the safe use of Yarrowia-derived products containing significant proportions of Yarrowia biomass (as for DuPont's eicosapentaenoic acid-rich oil) or with the yeast itself as the final product (as for British Petroleum's single-cell protein product). The natural occurrence of the species in food, particularly cheese, other dairy products and meat, is a further argument supporting its safety. The species causes rare opportunistic infections in severely immunocompromised or otherwise seriously ill people with other underlying diseases or conditions. The infections can be treated effectively by the use of regular antifungal drugs, and in some cases even disappeared spontaneously. Based on our assessment, we conclude that Y. lipolytica is a "safe-to-use" organism.
Subject(s)
Biotechnology/methods , Drug Industry/methods , Food Microbiology , Industrial Microbiology/methods , Yarrowia/physiology , Antifungal Agents/therapeutic use , Humans , Immunocompromised Host , Opportunistic Infections/drug therapy , Opportunistic Infections/etiology , Yarrowia/genetics , Yarrowia/pathogenicityABSTRACT
INTRODUCTION: Fungal infections in human skin, such as sporotrichosis, can occur after fish induced trauma. This work aimed to identify fungi in freshwater fish that are pathogenic to humans. METHODS: Extraction of dental arches from Serrassalmus maculatus (piranha) and Hoplias malabaricus (wolf fish), stings from Pimelodus maculatus (mandis catfish), dorsal fin rays from Plagioscion spp. (corvina) and Tilapia spp., for culture in Mycosel agar. Some cultures were submitted to DNA extraction for molecular identification by sequencing ITS-5.8S rDNA. RESULTS: Cultures identified most yeast as Candida spp., while sequencing also permitted the identification of Phoma spp. and Yarrowia lipolytica. CONCLUSIONS: While the search for S. schenckii was negative, the presence of fungus of the genera Phoma and Candida revealed the pathogenic potential of this infection route. The genus Phoma is involved in certain forms of phaeohyphomycosis, a subcutaneous mycosis caused by dematiaceous fungi, with reports of infections in human organs and systems. Traumatizing structures of some freshwater fish present pathogenic fungi and this may be an important infection route that must be considered in some regions of Brazil, since there are a large number of a fisherman in constant contact with traumatogenic fish.
Subject(s)
Candida/genetics , Fishes/microbiology , Yarrowia/genetics , Animals , Brazil , Candida/classification , Candida/pathogenicity , DNA, Fungal/analysis , DNA, Ribosomal/analysis , Fisheries , Fishes/classification , Humans , Oligonucleotide Array Sequence Analysis , Rivers , Yarrowia/pathogenicityABSTRACT
INTRODUCTION: Fungal infections in human skin, such as sporotrichosis, can occur after fish induced trauma. This work aimed to identify fungi in freshwater fish that are pathogenic to humans. METHODS: Extraction of dental arches from Serrassalmus maculatus (piranha) and Hoplias malabaricus (wolf fish), stings from Pimelodus maculatus (mandis catfish), dorsal fin rays from Plagioscion spp. (corvina) and Tilapia spp., for culture in Mycosel agar. Some cultures were submitted to DNA extraction for molecular identification by sequencing ITS-5.8S rDNA. RESULTS: Cultures identified most yeast as Candida spp., while sequencing also permitted the identification of Phoma spp. and Yarrowia lipolytica. CONCLUSIONS: While the search for S. schenckii was negative, the presence of fungus of the genera Phoma and Candida revealed the pathogenic potential of this infection route. The genus Phoma is involved in certain forms of phaeohyphomycosis, a subcutaneous mycosis caused by dematiaceous fungi, with reports of infections in human organs and systems. Traumatizing structures of some freshwater fish present pathogenic fungi and this may be an important infection route that must be considered in some regions of Brazil, since there are a large number of a fisherman in constant contact with traumatogenic fish.
INTRODUÇÃO: Infecções fúngicas na pele humana (como a esporotricose) podem se manifestar após traumatismos por peixes. O objetivo deste trabalho é procurar fungos patogênicos para o homem em peixes fluviais. MÉTODOS: Extração de arcadas dentárias Serrassalmus maculatus (piranha) e Hoplias malabaricus (traíra), ferrões de Pimelodus maculatus (mandis), raios da nadadeira dorsal de Plagioscion spp. (corvina) e Tilapia spp. para a realização do cultivo em agar Mycosel. Algumas culturas foram submetidas à extração de DNA para a identificação molecular pelo seqüenciamento da região ITS-5.8S do rDNA. RESULTADOS: As culturas mostraram que a maioria das leveduras era Candida spp. e o sequenciamento também permitiu a identificação de Phoma spp. e Yarrowia lipolytica. CONCLUSÕES: Embora a pesquisa para S. schenckii tenha sido negativa, a presença de fungos do gênero Phoma e Candida revela o potencial patogênico desta via de infecção. O gênero Phoma está envolvido em alguns casos de feohifomicoses, micoses subcutâneas causadas por fungos dematiáceos com relatos de infecções em órgãos e sistemas humanos. As estruturas traumatizantes de alguns peixes fluviais apresentam fungos patogênicos e esta pode ser uma importante via de infecção que deve ser considerada em algumas regiões do Brasil, uma vez que há um grande número de pescadores e peixes traumatogênicos.
