都柏林念珠菌与白念珠菌的实验室鉴别进展

都柏林念珠菌是新命名的可以产生芽管和厚壁孢子的致病念珠菌,常规的实验室检测方法很难将其与白念珠菌相鉴别。本文综述了都柏林念珠菌和白念珠菌的生物形态学特征及形态学、血清学、分子生物学鉴别进展。     

都柏林念珠菌的鉴定及与白念珠菌3种表型鉴别方法的研究

目的 从临床分离的念珠菌中进一步鉴定都柏林念珠菌,并评价3种表型鉴别白念珠菌和都柏林念珠菌的方法.方法 对17株临床分离并初步鉴定的白念珠菌和1株ATCC白念珠菌标准株,采用PHR1同源序列PCR法检测,鉴定出其中的都柏林念珠菌;分别采用45℃生长试验、YEPD(1%酵母浸膏,2%蛋白胨,2%葡萄糖)液基39℃芽管生成试验、Staib琼脂(鸟食琼脂)厚壁孢子形成试验对两种菌的表型特点进行比较.结果 17株临床分离的白念珠菌中有3株鉴定为都柏林念珠菌;45℃时,两种菌在改良沙堡弱琼脂上均无明显生长,YEPD液基中仅有1株白念珠菌生长良好;YEPD液基39℃培养2种菌均无芽管生成;Staib琼脂培养72h,3株都柏林念珠菌中有2株可形成厚壁孢子,而白念珠菌则无,与PHR1同源序列检测结果基本一致.结论 PHR1同源序列检测是鉴别都柏林念珠菌与白念珠菌的可靠方法,Staib琼脂厚壁孢子形成试验有助于鉴别两菌,45℃生长试验和YEPD液基39℃芽管生成试验则不能有效鉴别两菌.     

都柏林念珠菌的PCR-RFLP鉴定

目的建立一种准确、可靠的鉴定都柏林念珠菌基因型的方法。方法临床念珠菌分离自临床生殖器念珠菌病患者,45℃温度试验时几乎不生长,且其他表型实验结果也符合都柏林念珠菌特征。对41例临床念珠菌和1例白念珠菌标准株、1例都柏林念珠菌标准株rDNA内部转录间隔区的基因进行聚合酶链反应（PCR）扩增,HpyF10Ⅵ酶切后观察PAGE图谱。结果聚合酶链反应-限制性片段长度多态性（PCR-RFLP）后,39例临床株鉴定为白念珠菌。2例临床菌株带型特殊,测序后行BLAST比对分析,1例鉴定为白念珠菌,另1例尚不能肯定为都柏林念珠菌,还需要进一步以其他分子生物学方法鉴定。结论PCR-RFLP方法酶切后两种念珠菌带型区分明显,可以鉴别大部分临床菌株。基因测序是该方法有意义的补充。     

鉴别都柏林假丝酵母和白假丝酵母的一种新的烟草琼脂培养基

根据表型特征鉴别都柏林假丝酵母（都柏林念珠菌）和白假丝酵母（白念珠菌）的方法一般不完全可靠，最可信的选择是基于聚合酶链反应（PCR）的分子生物学方法，但因其要求条件较高，不适于推广使用。原本用于鉴定新生隐球菌的Staib琼脂和向日葵琼脂培养基在区分都柏林念珠菌和白念珠菌中的作用逐渐得到肯定,     

大蒜素体外抗白念珠菌生物膜作用的初步研究

目的研究大蒜素对体外白念珠菌生物膜的影响。方法 MTT法评价大蒜素对白念珠菌生物膜形成及细胞黏附的影响;血清芽管计数法评价大蒜素对白念珠菌芽管形成的影响。结果低浓度(4μg/mL)和高浓度(64μg/mL)大蒜素对白念珠菌生物膜形成的抑制率分别为(23.0±1.1)%和(95.6±0.3)%;32μg/mL大蒜素对早期(0h)、中期(12h)及成熟期(48h)生物膜的抑制率分别为(88.5±0.5)%、(63.3±0.8)%和(52.3±1.1)%;与空白对照组相比,不同浓度大蒜素(4～32μg/mL)对培养30min、60min、90min、120min的白念珠菌细胞黏附均有显著抑制作用(P0.05);空白对照组芽管形成率为(91.2±1.6)%,64μg/mL大蒜素组为(2.2±1.2)%。结论大蒜素对体外白念珠菌生物膜有较明显的抑制作用。     

体液免疫抗白念珠菌感染的研究

探讨抗白念珠菌IgY及其免疫血清对多种动物模型感染白念珠菌的保护作用。制备烧伤继发感染白念珠菌大鼠、白念珠菌性阴道炎小鼠及免疫功能低下小鼠多种动物感染模型 ,分别应用抗白念珠菌IgY、鼠免疫血清和生理盐水对照 ,观察比较各自的作用。抗白念珠菌IgY对烧伤继发感染白念珠菌大鼠及白念珠菌性阴道炎小鼠均有明显的保护作用 ;鼠免疫血清则对阻止远程靶器官的白念珠菌扩散有较好的作用。体液免疫成份抗白念珠菌IgY及其免疫血清对烧伤继发感染白念珠菌大鼠、白念珠菌性阴道炎小鼠及免疫功能低下小鼠均有良好的保护作用。     

白念珠菌粘附上皮细胞的机制

本文总结了近年来白念珠菌细胞表面疏水性、侵袭性酶、以及表面甘露糖、蛋白质等对上皮细胞粘附的研究进展,提出了阻断白念珠菌粘附的方式。     

穿心莲内酯体外抗白念珠菌生物膜作用的初步研究

目的研究穿心莲内酯对体外白念珠菌生物膜的影响。方法采用XTT减低法评价穿心莲内酯对白念珠菌生物膜及其黏附性的影响;镜下观察该药对白念珠菌生物膜的形态学影响;细胞毒性试验检测该药的毒副作用。结果穿心莲内酯对白念珠菌生物膜的SMIC50、SMIC80分别是250、1000μg/ml;1000μg/ml及100μg/ml时对白念珠菌的早期黏附及菌丝生长有抑制作用;对人细胞毒性较弱。结论穿心莲内酯对体外白念珠菌生物膜有显著的抑制作用。     

白念珠菌生物膜的研究

细菌生物膜相关感染发病率不断上升,且治疗困难,已受到广泛的关注。对于真菌,生物膜以及生物膜在真菌感染与耐药性产生过程中的作用只是近年来才受到国内外学者与临床专家的关注,目前的研究多集中在念珠菌属。本文综述了白念珠菌生物膜的形成与特征、影响因素、耐药性的分子机制等几方面内容。     

白念珠菌V-ATPase研究进展

白念珠菌是临床最常见的条件致病真菌,V-ATPase是真核生物中高度保守的质子泵转运复合物,可以维持液泡和细胞质pH稳态.近年来,V-ATPase作为一个抗白念珠菌感染的潜在靶点为人们所关注,本文就V-ATPase抑制剂、相关的其他靶点及抑制剂筛选等方面的研究进展作一综述.     

Purification and germination of Candida albicans and Candida dubliniensis chlamydospores cultured in liquid media

Candida albicans and Candida dubliniensis are the only Candida sp. that have been observed to produce chlamydospores. The function of these large, thick-walled cells is currently unknown. In this report, we describe the production and purification of chlamydospores from these species in defined liquid media. Staining with the fluorescent dye FUN-1 indicated that chlamydospores are metabolically active cells, but that metabolic activity is undetectable in chlamydospores that are >30 days old. However, 5–15-day-old chlamydospores could be induced to produce daughter chlamydospores, blastospores, pseudohyphae and true hyphae depending on the incubation conditions used. Chlamydospores that were preinduced to germinate were also observed to escape from murine macrophages following phagocytosis, suggesting that these structures may be viable in vivo . Mycelium-attached and purified chlamydospores rapidly lost their viability in water and when subjected to dry stress, suggesting that they are unlikely to act as long-term storage structures. Instead, our data suggest that chlamydospores represent an alternative specialized form of growth by C. albicans and C. dubliniensis .     

Comparison of the epidemiology, drug resistance mechanisms, and virulence of Candida dubliniensis and Candida albicans

Candida dubliniensis is a pathogenic yeast species that was first identified as a distinct taxon in 1995. Epidemiological studies have shown that C. dubliniensis is prevalent throughout the world and that it is primarily associated with oral carriage and oropharyngeal infections in human immunodeficiency virus (HIV)-infected and acquired immune deficiency syndrome (AIDS) patients. However, unlike Candida albicans, C. dubliniensis is rarely found in the oral microflora of normal healthy individuals and is responsible for as few as 2% of cases of candidemia (compared to approximately 65% for C. albicans). The vast majority of C. dubliniensis isolates identified to date are susceptible to all of the commonly used antifungal agents, however, reduced susceptibility to azole drugs has been observed in clinical isolates and can be readily induced in vitro. The primary mechanism of fluconazole resistance in C. dubliniensis has been shown to be overexpression of the major facilitator efflux pump Mdr1p. It has also been observed that a large number of C. dubliniensis strains express a non-functional truncated form of Cdr1p, and it has been demonstrated that this protein does not play a significant role in fluconazole resistance in the majority of strains examined to date. Data from a limited number of infection models reflect findings from epidemiological studies and suggest that C. dubliniensis is less pathogenic than C. albicans. The reasons for the reduced virulence of C. dubliniensis are not clear as it has been shown that the two species express a similar range of virulence factors. However, although C. dubliniensis produces hyphae, it appears that the conditions and dynamics of induction may differ from those in C. albicans. In addition, C. dubliniensis is less tolerant of environmental stresses such as elevated temperature and NaCl and H(2)O(2) concentration, suggesting that C. albicans may have a competitive advantage when colonising and causing infection in the human body. It is our hypothesis that a genomic comparison between these two closely-related species will help to identify virulence factors responsible for the far greater virulence of C. albicans and possibly identify factors that are specifically implicated in either superficial or systemic candidal infections.     

A rapid screening test to distinguish between Candida albicans and Candida dubliniensis using NMR spectroscopy

Nuclear magnetic resonance (NMR) spectroscopy combined with a statistical classification strategy (SCS) successfully distinguished between Candida albicans and Candida dubliniensis. 96% of the isolates from an independent test set were identified correctly. This proves that this rapid approach is a valuable method for the identification and chemotaxonomic characterisation of closely related taxa. Most discriminatory regions were correlated with metabolite profiles, indicating biochemical differences between the two species.     

Effect of farnesol on Candida dubliniensis morphogenesis

AIMS: Cell-cell signalling in Candida albicans is a known phenomenon and farnesol was identified as a quorum sensing molecule determining the yeast morphology. The aim of this work was to verify if farnesol had a similar effect on Candida dubliniensis, highlighting the effect of farnesol on Candida spp. morphogenesis. METHODS AND RESULTS: Two different strains of C. dubliniensis and one of C. albicans were grown both in RPMI 1640 and in serum in the presence of absence of farnesol. At 150 micromol l(-1) farnesol the growth rate of both Candida species was not affected. On the contrary, farnesol inhibited hyphae and pseudohyphae formation in C. dubliniensis. CONCLUSION: Farnesol seems to mediate cell morphology in both Candida species. SIGNIFICANCE AND IMPACT OF THE STUDY: The effect of farnesol on C. dubliniensis morphology was not reported previously.     

Effect of farnesol on Candida dubliniensis biofilm formation and fluconazole resistance

Candida dubliniensis and Candida albicans are dimorphic fungal species with a number of pathogenic capabilities, including biofilm formation, systemic infection and development of fluconazole resistance. In this study, the ability of farnesol to disrupt these virulence capabilities was investigated. Biofilm assessment and susceptibility studies indicated antifungal and antibiofilm properties for farnesol on both species with a disruptive effect on the cell membrane. Synergy testing of farnesol and fluconazole in resistant strains resulted in reversal of fluconazole resistance, indicating a potential application for farnesol as an adjuvant therapeutic agent.     

Caspofungin‐induced in‐vitro post‐antifungal effect and its impact on adhesion related traits of oral Candida dubliniensis and Candida albicans isolates

Adhesion to buccal epithelial cells (BEC) and denture acrylic surfaces (DAS), germ tube (GT) formation and cell surface hydrophobicity (CSH) are all virulence traits involved in the pathogenicity of Candida. Post‐antifungal effect (PAFE) also have a bearing on pathogenicity and virulence of Candida. Candida dubliniensis is associated with oral and systemic candidosis, which can be managed with caspofungin. There is no published information on caspofungin‐induced PAFE and its impact on adhesion traits of C. dubliniensis isolates. Thus, the purpose of this investigation was to determine the in vitro duration of PAFE on 20 C. dubliniensis isolates following transient exposure to caspofungin. Furthermore the impacts of caspofungin‐induced PAFE on adhesion to BEC and DAS, GT formation and CSH of these isolates were also determined. After establishing the minimum inhibitory concentration (MIC) of caspofungin, C. dubliniensis isolates were exposed to sub‐lethal concentrations (×3 MIC) of caspofungin for 1 hr. Thereafter the duration of PAFE, adhesion to BEC and DAS, GT formation and CSH were determined by previously described in‐vitro assays. MIC (μg/mL) of C. dubliniensis isolates to caspofungin ranged from 0.004 to 0.19. Caspofungin‐induced mean PAFE on C. dubliniensis isolates was 2.17 hr. Exposure to caspofungin suppressed the ability of C. dubliniensis isolates to adhere to BEC and DAS, form GT and CSH by 69.97%, 71.95%, 90.06% and 32.29% (P < 0.001 for all), respectively. Thus, transient exposure of C. dubliniensis isolates to caspofungin produces an antifungal effect not only by suppressing its growth but also by altering its adhesion traits.     

Subtypes of genotype A Candida albicans isolates determined by restriction endonuclease and sequence analyses

Systemic yeast infections are the leading cause of mortality and morbidity in immunocompromized patients. Candida albicans, being the most frequently isolated fungal pathogen in these patients, can be divided into three genotypes (genotypes A, B and C) by 25S intron analysis. In our study, we found that molecular sizes of genotype A C. albicans isolates were heterogeneous. In order to determine the molecular basis of this difference, HaeIII digestion was applied, and strains forming different band patterns were analyzed by automated sequence analysis. As a result of sequence analysis, eight different subtypes (a→h) were found among genotype A C. albicans strains and an easy differentiation scheme consisting of HaeIII and MspI digestions was constructed.     

Interspecific hybridisation between Candida albicans and Candida tropicalis

Abstract Protoplasts from auxotrophic mutants of Candida albicans and Candida tropicalis were produced by snail enzyme treatment and their fusion was induced with polyethylene glycol (PEG). During selective regeneration, nutritionally complemented interspecific hybrids were obtained. Their cells contained one nucleus, and the DNA content per cell was higher than in the parents. The isoenzymic and sugar assimilation patterns of the mutants, and those of the hybrids and the products after their haploidisation, were also analysed. The results indicated that the hybrids were partial alloploids containing the total chromosomal set of either of the parental species and one or a few chromosomes of the other.