Antifungal susceptibility profile of yeasts isolated from the oral cavity of cats.

BACKGROUND: Microorganisms living in the oral cavity play an important role in health and disease of the host. Cats are susceptible to oral infections, and it is documented that fungi in the oral cavity could impact these infections. Antifungal resistance has been increasing in recent years. OBJECTIVES: This study was designed to identify yeast isolates from the oral cavity of healthy cats and to evaluate their antifungal susceptibility pattern. METHODS: Oral specimens were collected from 60 cats and cultured at 37°C for 10 days. Yeasts were isolated and identified. Their antifungal susceptibility pattern was determined according to CLSI M44-A. RESULTS: Three yeast genera were isolated, including Candida spp (55.5%), Rhodotorula spp (33.3%) and Hanseniaspora spp (11.1%). Antifungal susceptibility profiling showed that, apart from a dose-dependent effect of itraconazole, Hanseniaspora spp was susceptible to all seven drugs studied. The Candida species were susceptible to all drugs except ketoconazole (sensitivity 80%) and caspofungin (sensitivity 40%). In R. glutinis and R. minuta, 100% sensitivity was observed for amphotericin B, posaconazole, ketoconazole and voriconazole. CONCLUSIONS: The results suggest that, in comparison with humans and other animals, cats have a different oral mycoflora in terms of species, number and diversity. However, these isolates have similar susceptibility patterns to those seen in isolates from other animals and humans. More studies should be done to further characterize the oral mycobiota of cats and its role in oral infections.

Study of Ecological Relationship of Yeast Species with Candida albicans in the Context of Vulvovaginal Infections.

The role of the fungal community, the mycobiota, in the health of the vagina is currently an important area of research. The emergence of new sequencing technologies and advances in bioinformatics made possible the discovery of novel fungi inhabiting this niche. Candida spp. constitutes the most important group of opportunistic pathogenic fungi, being the most prevalent fungal species in vulvovaginal infections. However, fungi such as Rhodotorula spp., Naganishia spp. and Malassezia spp. have emerged as potential pathogens in this niche, and therefore it is clinically relevant to understand their ecological interaction with Candida spp. The main aim of this study was to evaluate the impact of yeasts on Candida albicans' pathogenicity, focusing on in-vitro growth, and biofilm formation at different times of co-culture and germ tube formation. The assays were performed with isolated species or with co-cultures of C. albicans (ATCC10231) with one other yeast species: Rhodotorula mucilaginosa (DSM13621), Malassezia furfur (DSM6170) or Naganishia albida (DSM70215). The results showed that M. furfur creates a symbiotic relationship with C. albicans, enhancing the growth rate of the co-culture (149.69%), and of germ tube formation of C. albicans (119.8%) and inducing a higher amount of biofilm biomass of the co-culture, both when mixed (154.1%) and preformed (166.8%). As for the yeasts R. mucilaginosa and N. albida, the relationship is antagonistic (with a significant decrease in all assays), thus possibly repressing the mixture's pathogenicity. These results shed light on the complex interactions between yeasts in the vaginal mycobiome.

Shotgun proteomics for the identification of yeasts responsible for pink/red discoloration in commercial dairy products.

Pink/red discoloration encompasses a series of relatively common spoilage defects of commercial dairy products. In this study, we used shotgun proteomics to identify the microorganism responsible for the production of intensely red-coloured slimes found on the surface of freshly opened commercial spreadable cheese and yogurt samples. Proteome-wide characterization of microbial proteins allowed to identify 1042 and 687 gene products from Rhodotorula spp. in spreadable cheese and yogurt samples, respectively, while no significant protein scores from other microorganisms were recorded. Subsequent microbiological analyses and sequencing of the 26S rRNA gene region supported the proteomic results demonstrating that the microorganism involved was Rhodotorula mucilaginosa, a carotenoid - producing basidiomycetous that can be potentially pathogenic to humans, especially for immunocompromised individuals. This is the first time that shotgun proteomics has been used to identify a microorganism responsible for spoilage in dairy products, proposing it as a relatively fast, sensitive, and reliable alternative or complement to conventional methods for microbial identification.

Uncovering the Yeast Diversity in the Female Genital Tract: An Exploration of Spatial Distribution and Antifungal Resistance.

Candida albicans is the leading cause of vulvovaginal yeast infections; however, other species are becoming relevant in this niche. The spatial distribution of these fungi in the female genital tract remains poorly understood. In this study, swab samples were collected from 33 patients, first from the anterior vulva and then from the upper third and right lateral wall of the vagina: 16 were with symptoms of vulvovaginal candidiasis and 17 were without characteristic symptoms; furthermore, the genus and species of each isolate were identified. In vitro susceptibility testing for fluconazole and clotrimazole was performed for all isolates. Candida albicans was the most common species (63.6%), followed by Rhodotorula spp. (51.5%), and then Candida parapsilosis (15.2%). Rhodotorula spp. and C. parapsilosis were more commonly associated with colonization, and C. albicans with infection. Rhodotorula spp. isolates presented a low susceptibility to fluconazole, with the MIC ranging from 32 to >64 µg/mL. Differences in susceptibility to fluconazole and clotrimazole between the pairs of vaginal and vulvar isolates were found for Candida albicans, Rhodotorula spp., and Nakaseomyces glabratus. The results suggest that different niches may impact the susceptibility profiles of the isolates, as well as their different clinical behaviors.

Infección por Rhodotorula rubra en el lactante con leucemia linfoblástica aguda. Reporte de un caso / Rhodotorula rubra infection in infants with acute lymphoblastic leukemia. Case report

Rhodotorula especies (spp.) son levaduras comensales de la familia Sporidiobolaceae. Rhodotorula rubra es un patógeno oportunista y emergente que tiene la habilidad de colonizar e infectar a los pacientes susceptibles como son los que padecen de enfermedades hematológicas malignas, y está asociado con el uso de catéteres venosos centrales. Hay pocos reportes de casos en niños inmunocomprometidos. Presentamos el caso de una paciente lactante con diagnóstico de leucemia linfoblástica aguda (LLA) B común, que presentó infección fúngica por Rhodotorula rubra.

Rhodotorula species (spp.) are commensal yeasts of the family Sporidiobolaceae. Rhodotorula rubra is an opportunistic and emerging pathogen with the ability to colonize and infect susceptible patients like patients with malignant haematological diseases and it is associated with the use of central venous catheters. Only a few reports have linked found in immunocompromised children. In this article we present the case report of a lactating patient with a diagnosis of common acute lymphoblastic leukemia (B), who presented a fungal infection by Rhodotorula rubra.

Stereoselective yeast-mediated reduction of trans-5-(1'-oxo-3'-methylbutyl)-3-methyldihydrofuran-2-one: production of chiral intermediates for the synthesis of ß-secretase inhibitors.

OBJECTIVE: To investigate the usefulness of yeast strains to the production of chiral hydroxylactones, important synthons in the synthesis of ß-secretase inhibitors. RESULTS: Strains Rhodotorula glutinis KCh 242, Rhodotorula rubra KCh 82, Rhodotorula marina KCh 77 and Saccharomyces cerevisiae KCh 464 reduced racemic trans-5-(1'-oxo-3'-methylbutyl)-3-methyldihydrofuran-2-one (4) according to the Prelog's rule to afford preferentially the stereoisomers with S configurations at C-1'. R. marina KCh 77 and R. glutinis KCh 242 exhibited selectivity towards 3S, 5R enantiomer of the substrate, whereas R. rubra KCh 82 and S. cerevisiae KCh 464 preferred the reduction of its antipode. The highest yield of 3R,5S,1'S-hydroxylactone 3c (78 %) was obtained with R. rubra KCh 82. CONCLUSIONS: Different stereoisomers of trans-5-(1'-hydroxy-3'-methylbutyl)-3-methyldihydrofuran-2-one and its 5-substituted analogues are produced as important intermediates in the synthesis of drugs for the therapy of Alzheimer's disease.