Systematics of yeast species in the Candida parapsilosis group

Summary The systematics ofCandida species that may or may not ferment carbohydrates and which assimilate trehalose, xylose, and mannitol, but do not assimilate lactose, melibiose, raffinose, inositol, dulcitol, or KNO₃ were examined. Included were:C. albicans, C. albicans var.stellatoidea, C. diddensii, C. bogoriensis, C. claussenii, C. lusilaniae, C. natalensis, C. obtusa, C. oregonensis, C. parapsilosis, C. parapsilosis var.querci, C. polymorpha, C. pulcherrima. C. reukaufii, C. solani, C. tropicalis, C. tropicalis var.lambica andC. viswanathii. The species were delimited and a basis for separation established.Contribution No. 800 from the Institute of Marine Science, University of Miami.This material was developed from a portion of a dissertation submitted in partial fulfillment of the requirements for the Ph. D. degree at the University of Miami, Coral Gables, Florida.Present address: Dept. of Food Science & Technology, University of California at Davis.     

近平滑念珠菌的形态转换观察

目的观察近平滑念珠菌在不同培养基的形态转换现象,以及温度对其形态转换的影响。方法收集近平滑念珠菌正常人皮肤携带株及临床致病株和标准株,接种于改良Lee培养基和含桃红B的YPD培养基,观察其不同形态转换,以及温度变化对光滑(W)与皱褶(O)形态转换的影响。结果近平滑念珠菌在Lee培养基和含桃红B的YPD培养基上,均可以出现多种形态以及一定频率W-O转换现象。在观察W向O形态转换过程中发现,与25℃培养温度相比,37℃条件下光滑菌落形态占更多的比例。结论近平滑念珠菌体外培养时存在形态转换及W-O转换现象,且于37℃时更易保持光滑形态。含桃红B的YPD培养基也可以用于基本的W-O形态转换观察。     

Resistance of Candida parapsilosis to drugs

Several strains of Candida parapsilosis, isolated independently in our laboratory, had their resistance compared to a series of inhibitors which act either at the level of mitochondrial ribosomes (chloramphenicol, erythromycin, paromomycin) or at the level of mitochondrial respiration and oxidative phosphorylation (oligomycin, antimycin A, diuron, carbonylcyanide m-chlorophenylhydrazone). Cells were grown on glycerol media supplemented with one of these inhibitors, and it was demonstrated that the resistance of these yeasts to a large spectrum of antibiotics was due to several features: a resistance to oligomycin was found at the permeation level; the resistance to the other drugs was correlated to the relative insensitivity of cytochrome biosynthesis to the drugs; the cells developed, at the same time, two types of alternative pathways: the one branched at the ubiquinone level which drove electrons from Krebs cycle substrates to oxygen, and the other, antimycin A-insensitive but inhibited by amytal, salicylhydroxamic acid and high cyanide concentrations. This secondary mitochondrial pathway, driving reducing equivalents from cytoplasmic NADH to cytochrome c and then to cytochrome aa3 or to alternate oxidase, allowed the growth of Candida parapsilosis on a non fermentescible medium, supplemented with these drugs.     

The energetic growth yields of the yeast Candida parapsilosis

The energetic growth yields of Candida parapsilosis were compared with those of Saccharomyces cerevisiae as a function of the energy source in the presence or absence of antimycin A, an inhibitor of the second phosphorylation site. When glycerol was used as energy source, the energetic growth yields were quite similar in C. parapsilosis and S. cerevisiae. On the other hand, when experiments were carried out with glucose as energy source, although three phosphorylation sites were available, glucose was found to be a poor energy source for C. parapsilosis. When C. parapsilosis was grown in the presence of antimycin A, on glucose: YGluS = 3YGlu + AS and on glycerol: YGlyS = 2 YGly + AS. It was concluded that growth in the presence of antimycin A could occur due to the functioning of the third phosphorylation site. This result agrees with previous works indicating that in C. parapsilosis the alternative pathway merges into the main respiratory chain at the cytochrome c level. Although the doubling time of C. parapsilosis was much less temperature-sensitive than that of S. cerevisiae, the energetic growth yield was the same at 13 degrees C and 28 degrees C, and consequently, the secondary pathway did not seem to be thermogenic.     

Antigenic relationship between Candida parapsilosis and Candida albicans serotype B

We examined the antigenic relationship between Candida parapsilosis and C. albicans serotype B with respect to antigenic factors 13 and 13b, specific for the former species and common to both species, respectively. Acetolysis of C. albicans serotype B cell-wall mannan gave six oligosaccharides. Their chemical structure was determined by 1H-nuclear magnetic resonance (NMR) spectroscopy, methylation analysis, and partial acid hydrolysis. The structure of the hexasaccharide derived from C. albicans serotype B mannan was alpha-D-Manp-(1-2)-alpha-D-Manp-(1-3)-alpha-D-Manp-(1- 2)-alpha-D-Manp-(1-2)- alpha-D-Manp-(1-2)-D-Man (M6) which is identical to that from C. parapsilosis mannan. Inhibition of two precipitin reaction systems (anti-C. albicans serotype B serum and anti-C. parapsilosis serum to the respective homologous mannan), by oligosaccharides from homologous and heterologous mannans indicated that M6 from either C. albicans serotype B or C. parapsilosis was the most effective inhibitor. Moreover inhibition of the agglutination reaction between factor serum containing anti-factors 13 and 13b and C. albicans serotype B or C. parapsilosis cells by oligosaccharides from both mannans also indicated that the M6s were the most effective inhibitors. These results suggest that the M6s derived from the two species are identical in their chemical structure, although the structures of the whole mannans of the two species are not identical as demonstrated by gel diffusion precipitation patterns, and that M6s may be involved in the specificities of antigenic factors 13 and 13b. The amount of M6 is larger in C. parapsilosis cell-wall mannan, suggesting that high repeating frequency of M6 fragment may induce the antibody specific for C. parapsilosis.     

Experimental rat vaginal infection with Candida parapsilosis

The experimental vaginopathic potential of Candida parapsilosis was determined in ovariectomized rats maintained under pseudoestrus by estrogen administrations. Of the 3 strains of C. parapsilosis tested, that isolated from the vagina of a woman affected by vulvovaginal candidosis gave a prolonged and sustained experimental vaginitis, not different in extent and duration from that caused by a vaginal isolate of C. albicans from a vaginitis patient. The other two isolates of C. parapsilosis (one from the vagina of an asymptomatic subject and another from soil) were unable to infect rat vagina. Microscopic observations of PAS-stained vaginal smears from rats infected with the vaginopathic isolate of C. parapsilosis showed pronounced adherence of yeasts to exfoliated cells. In addition, this isolate of C. parapsilosis produced an elevated quantity of acid proteinase in vitro.     

Ambroxol influences voriconazole resistance of Candida parapsilosis biofilm

The ability to form biofilm on different surfaces is typical of most Candida species. Microscopic structure and genetic aspects of fungal biofilms have been the object of many studies because of very high resistance to antimycotic agents because of the scarce permeability of the external matrix and to the alterations in cell metabolism. In our study, 31 isolates of Candida parapsilosis, isolated from bloodstream infections, were tested for their ability to produce biofilm and were found to be good producers. The susceptibility to voriconazole, assayed by colorimetrical XTT assay, revealed a very elevated minimum inhibitory concentrations for sessile cells in comparison with planktonic ones. The addition of ambroxol, a mucolytic agent, increased the susceptibility of biofilm forming cells to voriconazole. Expression of the efflux pump genes CDR and MDR was analyzed in biofilms alone or treated with ambroxol, evidencing a role of ambroxol in the expression of genes involved in azole resistance mechanisms of C.?parapsilosis biofilms. In conclusion, our data seem to encourage the use of different substances in combination with classical antimycotics, with the aim of finding a solution to the increasing problem of the resistance of biofilms formed on medical devices by nonalbicans Candida species.     

Survival of Candida parapsilosis yeast in olive oil

Candida parapsilosis is a human opportunistic pathogen yeast isolated from different habitats like animals, man, pickled cucumber, fruit juices, and water. Recent studies have demonstrated that C. parapsilosis can survive in olive oil for very long periods even exceeding 24 months. The survival of two strains of C. parapsilosis named DAPES 1890 and 1892, previously isolated from extra virgin olive oil, was influenced by the state of hydration of the cells and the polyphenols concentration of olive oil. When the cells of the two strains of C. parapsilosis were inoculated under a liophilized form into olive oil containing 45–312 mg/kg of total polyphenols, their survival in some olive oil samples reached approximately 18 months. However, if the above-mentioned inoculum was rehydrated with 1 % of distilled water, then the survival of both yeast strains in some samples of oil exceeded 24 months. The two yeast strains, recovered from the olive oil samples after 24 months of storage, showed, under SEM, spherical shapes with and without buds according to whether the inoculum was made up of rehydrated or lyophilized cells. The survival of all the C. parapsilosis strains was also negatively influenced by the polyphenols concentration of the olive oil samples inoculated both with lyophilized and rehydrated yeast cells. In the oily habitat, the polyphenols sorption to the C. parapsilosis yeast surface was observed, and during storage the polyphenols reacted with the yeast cell walls according to their concentration in the inoculated olive oil.     

Killing kinetics of anidulafungin,caspofungin and micafungin against Candida parapsilosis species complex: Evaluation of the fungicidal activity

Background

Candida parapsilosis, Candida metapsilosis and Candida orthopsilosis are emerging as relevant causes of candidemia. Moreover, they show differences in their antifungal susceptibility and virulence. The echinocandins are different in terms of in vitro antifungal activity against Candida. Time-kill (TK) curves represent an excellent approach to evaluate the fungicidal activity of antifungal drugs.

A case of recurrent episodes of Candida parapsilosis fungemia

Candida species is the fourth most commonly isolated organism in blood stream infections in the hospital setting. Patients with candidemia frequently succumb to this infection. For those that survive an initial candidemia, an increasing number of cases of breakthrough or recurrent candidemias have been reported in the literature. We report three episodes of C. parapsilosis fungemia in a cancer patient. Molecular testing was performed and confirmed that all these episodes occurring within an eight-month period were caused by the same organism. The incidence of recurrent candidemia is likely to increase in the near future. Studies and therapeutic interventions for patients at risk for recurrent candidemias are warranted.     

Virulence of Candida parapsilosis, Candida orthopsilosis, and Candida metapsilosis in reconstituted human tissue models

Candida parapsilosis is an increasingly important human pathogen. To study the interactions of C. parapsilosis with human tissues, we evaluated the effects of the CBS 604 type strain and three different clinical isolates on reconstituted human oral epithelial and epidermal tissues. The newly described species Candida orthopsilosis and Candida metapsilosis were also examined in these models. Microscopy of reconstituted tissues infected with yeast cells revealed severe attenuation, morphological changes and cellular damage. C. orthopsilosis caused damage similar to C. parapsilosis isolates, whereas C. metapsilosis was less virulent. To further quantitate tissue damage, we measured lactate dehydrogenase (LDH) in the culture supernatant. The relative LDH measurements correlated with our histopathological observations. We also examined the effect of the lipase inhibitor Ebelactone B and proteinase inhibitor Pepstatin A, to establish the utility of this model for studying factors of C. parapsilosis virulence. Both Ebelactone B and Pepstatin A reduced the destruction of epidermal and epithelial tissues. Our data show that reconstituted human tissues are extremely useful for modeling host interactions with C. parapsilosis and for studying fungal virulence factors.     

A genome sequence survey shows that the pathogenic yeast Candida parapsilosis has a defective MTLa1 allele at its mating type locus

Candida parapsilosis is responsible for ca. 15% of Candida infections and is of particular concern in neonates and surgical intensive care patients. The related species Candida albicans has recently been shown to possess a functional mating pathway. To analyze the analogous pathway in C. parapsilosis, we carried out a genome sequence survey of the type strain. We identified ca. 3,900 genes, with an average amino acid identity of 59% with C. albicans. Of these, 23 are predicted to be predominantly involved in mating. We identified a genomic locus homologous to the MTLa mating type locus of C. albicans, but the C. parapsilosis type strain has at least two internal stop codons in the MTLa1 open reading frame, and two predicted introns are not spliced. These stop codons were present in MTLa1 of all eight C. parapsilosis isolates tested. Furthermore, we found that all isolates of C. parapsilosis tested appear to contain only the MTLa idiomorph at the presumptive mating locus, unlike C. albicans and C. dubliniensis. MTLalpha sequences are present but at a different chromosomal location. It is therefore likely that all (or at least the majority) of C. parapsilosis isolates have a mating pathway that is either defective or substantially different from that of C. albicans.     

Candida parapsilosis ATCC 7330 can also deracemise 1-arylethanols

Abstract

Candida parapsilosis ATCC 7330 grown using different culture conditions (inoculum size 4% (v/v), inoculum age 12 h, and harvest time 14 h) from those previously reported (inoculum size 2% (v/v), inoculum age 24 h, and harvest time 44 h) successfully deracemised racemic 1-arylethanols and 4-phenyl-2-butanol to the (R)-enantiomer (ee up to >99%). The deracemisation of racemic 1-aryl ethanol proceeds via (i) enantioselective oxidation of (S)-enantiomer followed by (ii) reduction of the ketone formed to give the racemic alcohol which gets kinetically resolved thus enriching for the (R)-enantiomer from the racemate. This is the first report on the deracemisation of 1-arylethanols using Candida parapsilosis ATTC 7330 via dynamic kinetic resolution.     

In Vitro Effect of Amphotericin B on Candida albicans,Candida glabrata and Candida parapsilosis Biofilm Formation

Candida spp. biofilm is considered highly resistant to conventional antifungals. The aim of this study was to investigate the in vitro effect of amphotericin B on Candida spp. biofilms at different stages of maturation. We investigated the activity of amphotericin B against 78 clinical isolates of Candida spp., representing three species, growing as planktonic and sessile cells, by a widely accepted broth microdilution method. The in vitro effect on sessile cell viability was evaluated by MTT reduction assay. All examined strains were susceptible to amphotericin B when grown as free-living cells. At the early stages of biofilm maturation 96.7–100.0 % strains, depending on species, displayed amphotericin B sessile minimal inhibitory concentration (SMIC) ≤1 μg/mL. Mature Candida spp. biofilm of 32.1–90.0 % strains displayed amphotericin B SMIC ≤1 μg/mL. Based on these results, amphotericin B displays species- and strain-depending activity against Candida spp. biofilms.