Environmental, vaginal, and blood isolates of Candida parapsilosis were biotyped by karyotype analysis in pulsed-field gel electrophoresis. Morphotype and resistotype were also determined as was aspartyl proteinase secretion and pathogenicity in a systemic mouse infection model. Overall, the karyotype patterns consisted of 6-9 chromosome bands (> 3.0-0.6 Mb) with limited clustering, since most isolates had unique chromosome profiles. Major clusters C. parapsilosis, differing by source of isolation and in experimental pathogenicity, could be discriminated by morphoresistotyping. The morphotypes of isolates from subjects with candidemia ranged from one that caused elevated mortality in the normal mouse to those that were totally avirulent in the neutropenic animal. Among clinical isolates, secretion of aspartyl proteinase was higher in vaginitis than in candidemia isolates and did not correlate with the experimental pathogenicity. These results emphasize the biotype diversity of C. parapsilosis and have potentially important epidemiologic and pathologic implications.
Aims: The aim of this study was to analyse the antimycotic properties of Melaleuca alternifolia essential oil (tea tree oil, TTO) and its principal components and to compare them with the activity of 5-fluorocytosine and amphotericin B. Methods and Results:The screening for the antimycotic activity was performed by serial twofold dilutions in Roswell Park Memorial Institute medium with the inclusion of Tween-80 (0AE5%). TTO and terpinen-4-olo were the most active compounds. Conclusions: The majority of the organisms were sensitive to the essential oil, with TTO and terpinen-4-olo being the most active oils showing antifungal activity at minimum inhibitory concentration values lower than other drugs. Significance and Impact of the study: This study provides a sample large enough to determine the antifungal properties of TTO and terpinen-4-olo and suggests further studies for a possible therapeutic use.
The vaginopathic potential and the intravaginal morphology of a nongerminative variant of Candida albicans, strain CA-2, were studied in a rat vaginitis model. Although it expressed low virulence in systemic infections, strain CA-2 was capable of causing a vaginal infection of the same duration and extent as that obtained in rats challenged with the germ-tube-forming strain C. albicans 3153 from the stock collection or with a fresh clinical isolate of C. albicans from a case of human vaginitis. During the experimental infection, the CA-2 cells did not maintain their yeast morphology but gave rise to single enlarged-elongated elements (1 to 2 days) which grew predominantly as coarse, short, pseudomycelium-like filaments (2 to 3 days) and then as long threads (7 days). These latter filaments were ultimately indistinguishable from the hyphal filaments formed by the germ-tube-forming strains, which, however, initially developed in the vagina by typical germ tube formation. This peculiar morphological development of strain CA-2 was not observed in organs of systemically infected mice, where, in contrast to strain 3153 which formed typical hyphae, strain CA-2 maintained a typical pattern of yeast growth. Vaginal isolates of strain CA-2 taken at different days of infection were found to be identical to the challenging CA-2 cells, in terms of biochemical characteristics, inability to form germ tubes in any medium at 37°C in vitro, echinocandin resistance, DNA biotype, and low virulence in systemic infections in mice. Thus, experimental vaginitis by strain CA-2 is associated with a peculiar filamentous growth in the vagina, through an apparently novel morphological development bypassing classical germ tube formation but ultimately leading to ordinary hyphae. The elevated vaginopathic potential of strain CA-2, in contrast to its low virulence in systemic infection, also suggests that different Candida virulence factors (and host responses) come into play in local and disseminated candidal infections.
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