Angélica Zaninelli Schreiber

Trichosporon species infection in bone marrow transplanted patients.

Trichosporon species are emerging as opportunistic agents that cause systemic diseases in immunocompromised patients. Patients undergoing bone marrow transplant are submitted to intense and prolonged periods of neutropenia and consequently to several risk factors to fungal infections as the use of broad spectrum antibiotics and invasive devices. Two cases of fungal infections caused by Trichosporon asahii var. asahii and T. inkin in patients with bone marrow transplant are described T. asahii var. asahii was responsible for fungemia and the identification of this microorganism was later performed. T. inkin caused vascular accesses infection and was recovered from an implanted Hickman-Broviac catheter. Both patients were under oral fluconazole prophylaxis. The patient with systemic infection died despite the therapy with amphotericin B and the patient with catheter-related infection recovered from the fungal infection after catheter removal. Difficulties in the identification of this microorganism lead to delays in treatment and post-mortem diagnosis.

First evidence and characterization of an uncoupling protein in fungi kingdom: CpUCP of Candida parapsilosis.

An uncoupling protein (UCP) was identified in mitochondria from Candida parapsilosis (CpUCP), a non‐fermentative parasitic yeast. CpUCP was immunodetected using polyclonal antibodies raised against plant UCP. Activity of CpUCP, investigated in mitochondria depleted of free fatty acids, was stimulated by linoleic acid (LA) and inhibited by GTP. Activity of CpUCP enhanced state 4 respiration by decreasing ΔΨ and lowered the ADP/O ratio. Thus, it was able to divert energy from oxidative phosphorylation. The voltage dependence of electron flux indicated that LA had a pure protonophoretic effect. The discovery of CpUCP proves that UCP‐like proteins occur in the four eukaryotic kingdoms: animals, plants, fungi and protists.

Respiratory chain network in mitochondria of Candida parapsilosis: ADP/O appraisal of the multiple electron pathways

In this study we demonstrated that mitochondria of Candida parapsilosis contain a constitutive ubiquinol alternative oxidase (AOX) in addition to a classical respiratory chain (CRC) and a parallel respiratory chain (PAR) both terminating by two different cytochrome c oxidases. The C. parapsilosis AOX is characterized by a fungi‐type regulation by GMP (as a stimulator) and linoleic acid (as an inhibitor). Inhibitor screening of the respiratory network by the ADP/O ratio and state 3 respiration determinations showed that (i) oxygen can be reduced by the three terminal oxidases through four paths implying one bypass between CRC and PAR and (ii) the sum of CRC, AOX and PAR capacities is higher than the overall respiration (no additivity) and that their engagement could be progressive according to the redox state of ubiquinone, i.e. first cytochrome pathway, then AOX and finally PAR.

Is the incidence of candidemia caused by Candida glabrata increasing in Brazil? Five-year surveillance of Candida bloodstream infection in a university reference hospital in southeast Brazil

From 2006 to 2010, a retrospective study was conducted in a university referral tertiary care hospital to study the frequency and distribution of Candida species in different medical specialties. The use of mechanical ventilation, central venous catheter, and urinary catheter were recorded per 1,000 patient-days and the use of antifungals was calculated using defined daily dose (DDD). A total of 313 episodes were identified and the overall incidence was 0.54 (0.41-0.71) episodes per 1,000 patient-days. Candida albicans caused 44% of the overall episodes, followed by C. tropicalis (21.7%), C. parapsilosis (14.4%), C. glabrata (11.2%), and C. krusei (3.5%). The incidence of C. glabrata significantly increased from 2006-2010 (range: 4.8-23.5%) (P = 0.024). Candida glabrata was associated with malignancies (P = 0.004) and C. krusei with hematologic malignancies (P < 0.0001). The use of antifungals was higher in the hematology/bone marrow transplant units and represented 40% of all fluconazole prescription in the hospital. There was no correlation with the use of fluconazole and the increasing ratio of C. glabrata (r = 0.60). The use of invasive devices was significantly higher in the intensive care units (ICUs) than the medical and surgical emergencies units (P < 0.001). In contrast, the emergencies had higher incidence of candidemia (2-2.1 episodes/1,000 patient-days) than the ICUs (1.6 episodes 1,000 patient-days). Candida glabrata candidemia showed a significant increase in contrast to the current national literature where C. parapsilosis remained the most important non-C. albicans Candida species in Brazilian hospitals. Our findings suggested that the increasing incidence of C. glabrata was not associated with use of fluconazole and other risk factors might play an important role.

Phaeohyphomycosis caused by Chaetomium globosum in an allogeneic bone marrow transplant recipient.

Bone marrow transplant recipients are highly susceptible to opportunistic fungal infections. This is the report, of the first case of a Chaetomium systemic infection described in Brazil. A 34 year-old patient with chronic myeloid leukemia underwent an allogeneic sibling matched bone marrow transplant. Seven months later, he developed systemic infection with enlargement of the axillary and cervical lymph nodes. Culture of the aspirates from both lymph nodes yielded Chaetomium globosum. The infection was successfully treated with amphotericin B. The increasing population of immunosupressed patients requires a careful microbiologic investigation for uncommon fungal infections.

Development of cycling probe-based real-time PCR system to detect Fusarium species and Fusarium solani species complex (FSSC)

In the present study, we developed a new real-time PCR system based on the cycling probe technology (CPT), which is composed of two single tube real-time PCR assays: the Fusarium genus-specific assay and the Fusarium solani species complex (FSSC)-specific assay with primers targeting the 28s ribosomal RNA gene. The Fusarium genus-specific assay was shown to be highly specific, detecting all reference Fusarium strains with no cross-reaction with other reference fungal strains, such as Aspergillus spp. and human DNA. The FSSC-specific assay also reacted very specifically with FSSC, except for a cross-reaction with Fusarium lunatum. To validate the real-time PCR system, we tested 87 clinical isolates of Fusarium spp. Identification results from the real-time PCR system were found to be 100% concordant with those from DNA sequencing of EF-1α gene. The sensitivity testing also demonstrated high sensitivity, enabling detection of one copy of standard DNA with good reproducibility. Furthermore, both assays were shown to be extremely sensitive even when fungal cells were mixed with human cells, detecting 3 germinated conidia spiked in 3mL of human blood. To apply our new real-time PCR system to the molecular diagnosis of fusariosis, we evaluated its efficacy using a mouse model of invasive F. solani infection. Plasma and whole blood samples of infected mice were tested using the real-time PCR system. The sensitivity of the real-time PCR system was found to be 100% (n=4) in plasma samples. In contrast, no amplification signal was detected in whole blood samples. This system could provide a rapid and precise diagnostic tool for early diagnosis, which is necessary for appropriate treatment and improvement of prognosis of disseminated fusariosis.

Susceptibility testing of terbinafine alone and in combination with amphotericin B, itraconazole, or voriconazole against conidia and hyphae of dematiaceous molds.

Studies have demonstrated excellent in vivo efficacy of terbinafine combined with other antifungal agents against dematiaceous molds; however, there is a lack of in vitro studies. Most studies evaluated conidia inocula, but susceptibility testing of hyphae could mimic the fungal status in infected tissues and might reflect the therapeutic potential of the agent. We investigated the in vitro susceptibility of terbinafine alone and in combination with amphotericin B, itraconazole, or voriconazole against conidia by microdilution and dynamic measurement of hyphae growth of dematiaceous molds. The MIC values for hyphae were, until 3 dilutions, below the MIC obtained for conidia. The results indicated 100% synergistic interactions between terbinafine and azoles or amphotericin B in all tests, but lower MICs for hyphae. In conclusion, our findings allow us to say that the hyphal form of tested dematiaceous molds showed high susceptibility to all antifungal agents evaluated, alone and in combination with terbinafine.

In Vitro Evaluation of the Type of Interaction Obtained by the Combination of Terbinafine and Itraconazole, Voriconazole, or Amphotericin B against Dematiaceous Molds

ABSTRACT In vitro associations using the checkerboard microdilution method indicated lower MIC ranges and MIC median values for each drug (terbinafine, itraconazole, voriconazole, and amphotericin B) in association than those obtained for each single drug. Fractional inhibitory concentration index (FIC) results showed 100% synergism in the association of terbinafine with voriconazole, 96.5% in the association of terbinafine with amphotericin B, and 75.9% in the association of terbinafine with itraconazole. Drug combinations may be useful for treatment of dematiaceous mold infections as an alternative treatment to enhance the effectiveness of each drug.

Standardization of Hyphal Growth Inhibition Rate as a Means of Evaluating Microsporum spp. in vitro Susceptibility to Terbinafine, Griseofulvin, and Ciclopiroxolamine

Reference methods for antifungal susceptibility tests recommend the use of conidia as inoculum. However, some isolates produce few conidia, while the invasive form of filamentous fungi in general is hyphae making susceptibility tests infeaseble. These facts suggest that other than conidia broth dilution method is required for susceptibility tests. The aim of this study was to clarify if the hyphal growth inhibition rate could be used as a method of determining the antifungal susceptibility of genus Microsporum. For this reason, a method which traces hyphal tips automatically and measures their growth rate was standardized for Microsporum spp. Control growth curves and test growth curves obtained by real-time observation of the hyphae groups responses to different concentrations of terbinafine, griseofulvin, and ciclopiroxolamine were used to compare with minimum inhibitory concentrations (MICs) obtained by conidia broth microdilution method. A visible reduction in the growth inhibition rate was observed when hyphal activity was evaluated using the third or fourth serial two-fold dilution below the MIC determined by broth microdilution for terbinafine and ciclopiroxolamine. For griseofulvin, this reduction occurred after the fifth dilution below the MIC. This study highlights the importance of the inoculum type used to determine the in vitro susceptibility of Microsporum strains. We conclude that measurement of hyphal growth inhibition, despite being time consuming, could be a suitable method for evaluating antifungal susceptibility, particularly for fungi as Microsporum spp. that produce a small (or not at all) number of conidia.

Evaluation of Fusarium solani Hyphae and Conidia Susceptibility to Amphotericin B and Itraconazole: Study of a Clinical Case

Fusarium species are hyaline moulds belonging to the hyalohyphomycosis group that are usually found in the soil and plants. This organism has emerged as a cause of disseminated invasive disease. The correlation between in vitro value and clinical efficacy is low and many patients remain unresponsive to treatment despite in vitro susceptibility. We determined growth control for Fusarium solani using the BioCell-Tracer® system that measures the growth rate of a single fungal hypha, and the effect of different concentrations of amphotericin B and itraconazole. The MIC for these two drugs was also determined by a broth microdilution technique, using RPMI 1640. Different MICs for amphotericin B were obtained by the two different methods. This paper describes a case of infection due to Fusarium solani in an allogeneic bone marrow transplanted patient, the microbiological diagnostic, antifungal susceptibility tests for conidia and hypha and clinical correlation.