Enhancement of Amphotericin B Activity Against Candida albicans by Superoxide Radical

This study aimed to examine the involvement of oxidative damage in amphotericin B (AmB) activity against Candida albicans using the superoxide (O2-) generator paraquat (PQ). The effects of PQ on AmB activities against growth, viability, membrane permeability and respiration were examined in a wild-type parent strain (K) and a respiration-deficient mutant (KRD-19) since PQ-induced superoxide generation depends on respiration. In the parent strain, the minimal inhibitory concentration (MIC) of AmB, 0.25 microg/ml, tested with a liquid culture was lowered to 0.025 microg/ml by 1 mM PQ. Such a PQ-induced decrease in the MIC value of AmB was minimal in the mutant. Similar PQ-induced enhancement of AmB activity toward the parent strain was also observed with growth on an agar medium. In viability tests, when candidal cells were exposed to AmB (0.1 microg/ml) for I h, the lethality of AmB was enhanced by 1 mM PQ only in the parent strain. Exogenous superoxide dismutase and catalase failed to diminish the enhancing effect of PQ on the growth inhibitory activity of AmB in the parent strain, suggesting an interaction between superoxide and AmB in candidal cells. The enhancement of AmB activity by PQ, observed preferentially in the wild-type strain, can be explained by extensive superoxide generation depending on respiration. These results suggest that oxidative damage induced by superoxide is involved in AmB activity against C. albicans.     

Colonization of congenitally athymic, gnotobiotic mice by Candida albicans

Colony counts, scanning electron microscopy, and light microscopy were used to assess the capacity of Candida albicans to colonize (naturally) and infect the alimentary tract of adult and neonatal (athymic [nu/nu] or heterozygous [+/nu] littermates) germfree BALB/c mice. When exposed to yeast-phase C. albicans, the alimentary tract of adult germfree mice (nu/nu or +/nu) is quickly (within 24 to 48 h) colonized with yeast cells. Neither morbidity nor mortality was evident in any mice that were colonized with a pure culture of C. albicans for 6 months. Yeast cells of C. albicans predominated on mucosal surfaces in the oral cavities and vaginas of adult athymic and heterozygous mice. In both genotypes, C. albicans hyphae were observed in keratinized tissue on the dorsal posterior tongue surface and in the cardial-atrium section of the stomach. Conversely, neonatal athymic or heterozygous mice, born to germfree or C. albicans-colonized mothers, do not become heavily colonized or infected with C. albicans until 11 to 15 days after birth. Although yeast cells adhered to some mucosal surfaces in vivo, neither widespread mucocutaneous candidiasis, i.e., invasion of mucosal surfaces with C. albicans hyphae, nor overwhelming systemic candidiasis was evident in neonatal (nu/nu or +/nu) mice. Thus, even in the absence of functional T-cells and a viable bacterial flora, athymic and heterozygous littermate mice (adult or neonatal BALB/c) that are colonized with a pure culture of C. albicans manifest resistance to extensive mucocutaneous and systemic candidiasis.     

The role of eicosanoids in the kidney damage induced by Candida albicans.

A major target organ in generalized candidiasis is the kidney. The purpose of this study was to investigate the role of eicosanoids in the kidney infected by proteinase-positive and proteinase-negative Candida albicans. Prostaglandin (PG) E2-like activity was found to be significantly decreased while leukotriene (LT) C4-like activity increased within 10 days in the kidneys of mice infected with C. albicans. These results indicate that arachidonic acid metabolism is shifted to the lipoxygenase pathway and lipid peroxides, produced via this enzyme system may play an important role in the kidney damage induced by C. albicans.     

白念珠菌DNA损伤与修复

内外环境中各种因素如电离辐射、紫外辐射、氧化剂、烷化剂等都可以造成白念珠菌DNA的损伤。如果DNA的损伤得不到有效的修复,便会造成突变。白念珠菌的突变率很高,但并不是所有DNA受损伤的细胞都会表现出突变型性状,这跟其自身的修复系统有很大关系,主要包括切除修复、错配修复及双链断裂修复等途径,使得绝大多数损伤能够及时修复,从而维持DNA的完整性与稳定性。白念珠菌DNA的损伤修复可能影响其适应性、药物敏感性等表型,从而给临床感染患者的治疗增加难度。本文主要从白念珠菌DNA损伤的产生,损伤信号的传导识别及损伤修复三方面综述目前的研究进展。     

Induction of candidicidal activity in mice by immunization with Candida albicans ribosomes

Abstract Mice immunized with ribosomes from Candida albicans are protected against experimental systemic candidiasis. In this study we investigated the candidacidal activity of spleen cells from immunized animals as measured by ⁵¹Cr release from pre-labelled yeast cells. It was found that the anti-candidal cytotoxic activity of splenocytes from immunized mice was significantly higher than that of spleen cells from non-immunized controls with various effector to target (E:T) ratios, but optimal results were obtained with an E:T ratio of 10:1. The cytotoxic activity of splenocytes as measured by the ⁵¹Cr release assay correlated well with the capacity of the cells to inhibit candidal growth as determined by quantitative plating. This candidacidal activity was not antibody dependent but increased killing was obtained by adding fresh (but not heat inactivated) mouse serum. The enhanced candidicidal activity was inhibited by removal of plastic- or nylon-adherent cells from the cell suspension but not by treatment with anti-Thy 1.2 serum and complement. The data indicate that a candidacidal cell population is induced in the spleens of animals immunized with C. albicans ribosomes.     

Colonization of congenitally athymic, gnotobiotic mice by Candida albicans.

Colony counts, scanning electron microscopy, and light microscopy were used to assess the capacity of Candida albicans to colonize (naturally) and infect the alimentary tract of adult and neonatal (athymic [nu/nu] or heterozygous [+/nu] littermates) germfree BALB/c mice. When exposed to yeast-phase C. albicans, the alimentary tract of adult germfree mice (nu/nu or +/nu) is quickly (within 24 to 48 h) colonized with yeast cells. Neither morbidity nor mortality was evident in any mice that were colonized with a pure culture of C. albicans for 6 months. Yeast cells of C. albicans predominated on mucosal surfaces in the oral cavities and vaginas of adult athymic and heterozygous mice. In both genotypes, C. albicans hyphae were observed in keratinized tissue on the dorsal posterior tongue surface and in the cardial-atrium section of the stomach. Conversely, neonatal athymic or heterozygous mice, born to germfree or C. albicans-colonized mothers, do not become heavily colonized or infected with C. albicans until 11 to 15 days after birth. Although yeast cells adhered to some mucosal surfaces in vivo, neither widespread mucocutaneous candidiasis, i.e., invasion of mucosal surfaces with C. albicans hyphae, nor overwhelming systemic candidiasis was evident in neonatal (nu/nu or +/nu) mice. Thus, even in the absence of functional T-cells and a viable bacterial flora, athymic and heterozygous littermate mice (adult or neonatal BALB/c) that are colonized with a pure culture of C. albicans manifest resistance to extensive mucocutaneous and systemic candidiasis.     

Protection of mice from lethal endogenous Candida albicans infection by immunization with Candida membrane antigen

The protective effects of immunization with Candida membrane antigen (CMA) on a systemic infection originating from intestinally colonized Candida albicans were examined. The colonization of orally inoculated C. albicans in the intestinal tract was established in BALB/c mice that had been concomitantly treated with oral doses of antibacterial drugs. In these animals, a systemic dissemination of C. albicans with fatal outcome was induced by a repeated dosing of prednisolone. In this endogenous infection model, the effects of immunization by CMA on the infection were examined. CMA-immunized mice showed a longer lifespan than unimmunized mice. The protective effect of CMA immunization in immunosuppressed mice was also measured by a decrease in body weight loss after treatment with prednisolone and in the number of viable Candida cells in the target organs, the kidneys and livers. However, the CFU of C. albicans in the intestinal tract was not significantly lowered. These results suggest that CMA immunization inhibited the dissemination of systemic Candida infection from the intestinal tract induced by treatment with prednisolone.     

Systemic candidiasis in mice immunized with Candida albicans ribosomes

In view of our previous findings that vaccination of mice with Candida albicans ribosomes protects them against experimental systemic candidiasis, the aim of this study was to investigate the effect of this vaccination on the course of infection in immunized animals. Since the kidney is the maj or target in systemic candidal infection, we concentrated in this research on studying the histopathology and determining quantitatively the candidal colonization of this organ. The experiments were carried out at various time intervals after intravenous inoculation with live C. albicans. The colonization of kidneys in immunized mice was markedly lower than that in controls. The maximal difference in renal colonization between immunized and non immunized animals was observed when relatively low challenge doses were used. The inhibition of candidal multiplication in immunized mice seemed to be correlated to their increased resistance against lethal challenge, as expressed by a significantly higher survival rate. Histopathological changes and fungal elements were found in kidneys of control mice as early as 20 h post infection, while the kidneys of immunized mice did not seem affected by the disease. Moreover, even 3 days post infection, the kidneys of vaccinated animals still seemed normal. In conclusion, apparently the ribosomal vaccination leads to diminished colonization of the major site of infection in candidiasis, thus affording protection to the immunized animals against these infections.     

Calcification by Candida albicans.

Candida albicans was grown in a chamically defined medium in which certain microorganisms are known to calcify. The fungus developed calcium phosphate deposits with the same X-ray diffraction maxima as biological apatite.     

Adhesion of Candida albicans mutant strains to host tissue

Adhesion of Candida albicans to host cells is believed to represent a fungal virulence factor and a significant step in the development of candidiasis. As C. albicans strains may differ in their in vitro adhesion ability we initiated a study to investigate whether mutant strains differ in this respect from their parent wild-type. We assessed the in vitro adhesion of C. albicans CBS562 and two mutants obtained by mutagenesis with N′-nitrosoguanidine: a histidine auxotroph, SAG5, derived from CBS562, and a respiratory-deficient strain (a petite mutant), SAR1, derived from SAG5. The adhesion was tested in vitro using two target cell systems: (1) exfoliated human buccal epithelial cells (BEC); and (2) human keratinocyte tissue line cells (HaCaT cells). Adhesion to BEC was evaluated microscopically and that to HaCaT cells by a direct ELISA technique. The results indicated a 54% reduction in adhesion to BEC for SAG5 and 30% for SAR1 as compared to the wild-type, and a 25% reduction in adhesion to HaCaT cells for SAG5 and 20% for SAR1. To verify whether the prototrophy restores the adhesion ability, we complemented the his-negative auxotroph by transforming the strain with the HIS4 gene. Then we assayed the adhesion to BEC of the complemented his-negative mutant in comparison to that of the wild-type, the his-negative mutant (SAG5) and the plasmid-cured transformant. The adhesion values of the complemented his-negative strain were similar to those of the wild-type, whereas the values of the plasmid-cured strain were similar to those of SAG5.     

Unilateral involvement of kidneys in mice infected with Candida albicans

Mice injected with 10(3) cells of a virulent isolate of Candida albicans via the lateral tail vein developed frequent unilateral abnormalities of the right but not the left kidneys. Initially the number of colony forming units in the right and left kidneys were similar but the number of colonies became consistently higher in the right kidneys as the infection progressed. The frequency of unilateral involvement decreased when the inoculum size was increased to 5 X 10(3) cells. These observations indicate that when growth of C. albicans in vivo is monitored over a period of time starting with a low inoculum, it is critical to be consistent in culturing kidneys from the same side.