Glycosaminoglycans inhibit Candida albicans adherence to extracellular matrix proteins

The ability of Candida albicans to adhere to subendothelial extracellular matrix (ECM) may be important in the pathogenesis of disseminated candidiasis. ECM proteins, such as fibronectin, laminin, and types I and IV collagen bind C. albicans avidly. These proteins all possess heparin-binding domains. The influence of the glycosaminoglycans (GAGS) including heparin, heparan sulfate and dextran sulfate on C. albicans adherence to subendothelial ECM and ECM proteins was studied. It was demonstrated that the GAGS inhibited C. albicans adherence to ECM and ECM proteins. This possibly occurred by the GAGS binding to the ECM proteins and, in so doing, masking a preferred ligand for C. albicans adherence.     

白念珠菌生物被膜基质研究进展

近年来,白念珠菌耐药性备受关注,其耐药机制之一是形成生物被膜(biofilm).生物被膜主要由大量菌细胞及其所分泌的细胞外多聚基质( matrix)将其包裹所构成,基质含有多糖、蛋白、核酸等成分,不仅参与生物被膜的结构组成,也与耐药性密切相关.本文综述了白念珠菌生物被膜基质的组成特点、功能、影响因素、基因调控和药物干预的最新进展,并展望其在生物被膜感染方面作为诊断标志及治疗靶点的潜在应用前景.     

Cleavage of human big endothelin-1 by Candida albicans aspartic proteinase

Abstract A Candida albicans aspartic proteinase (CAP), one of the secretory proteinases of Candida albicans , is thought to be a possible virulence factor in Candida albicans infection. Whereas endothelin-1 is found as an endothelium-derived strong vasoconstrictive peptide, it is known to have a role in the maintenance of vascular homeostasis and tissue survival. Endothelin-1 is generated from a precursor form of endothelin-1, the so-called big endothelin-1. It has recently been reported that cathepsin D, E and pepsin, which are aspartic proteinases, convert big endothelin-1 to endothelin-1. In this study, the relationship between CAP and big endothelin-1 was studied. High performance liquid chromatography analysis revealed that big endothelin-1 was cleaved into several amino acid sites by CAP, but endothelin-1 was not converted from big endothelin-1. CAP cleaved big endothelin-1 at different sites when compared with that of other known aspartic proteinases, and it suppressed endothelin-1 production through the degradation of big endothelin-1. CAP may break homeostatic mechanism of endothelin-1 in Candida albicans infectious lesion.     

白念珠菌新型耐药基因MXR1的敲除与鉴定

目的 构建用于白念珠菌MXR1基因敲除的载体质粒,并通过Ura-Blaster策略敲除MXR1两条等位基因.方法 分别扩增白念珠菌MXR1基因ORF两侧上下游的片段,通过酶切与连接反应,将上下游片段分别插入到p5921质粒的hisG-URA 3-hisG盒两端,从而形成MXR1敲除载体质粒pUC-MXR1-URA3.通过Ura-Blaster策略将载体质粒转染到白念珠菌RM 1000内,并采用PCR和Southern-blot杂交方法鉴定各步转染、复筛所得的阳性克隆.结果 成功获得MXR1基因缺失的菌株.结论 MXR1基因缺失菌株的构建,有助于深入研究白念珠菌耐药机制.     

Secretion of serine peptidase by a clinical strain of Candida albicans: influence of growth conditions and cleavage of human serum proteins and extracellular matrix components

Candida albicans expresses a vast number of hydrolytic enzymes, playing roles in several phases of yeast-host interactions. Here, we identified two novel extracellular peptidase classes in C. albicans. Using gelatin-sodium dodecyl sulfate polyacrylamide gel electrophoresis two gelatinolytic activities were detected at physiological pH: a 60-kDa metallopeptidase, completely blocked by 1,10-phenanthroline, and a 50-kDa serine peptidase inhibited by phenylmethylsulfonyl fluoride. In an effort to establish a probable functional implication for these novel peptidase classes, we demonstrated that the 50-kDa secretory serine peptidase was active over a broad pH range (5.0-7.2) and was capable to hydrolyze some soluble human serum proteins and extracellular matrix components. Conversely, when this isolate was grown in yeast carbon base supplemented with bovine serum albumin, a secretory aspartyl peptidase activity was measured, instead of metallo- and serine peptidases, suggesting that distinct medium composition induces different expression of released peptidases in C. albicans. Additionally, we showed by quantitative proteolytic measurement, flow cytometry and immunoblotting assays that the brain heart infusion medium might repress the Sap1-3 production. Collectively, our results showed for the first time the capability of an extracellular proteolytic enzyme other than aspartic-type peptidases to cleave a broad spectrum of relevant host proteinaceous substrates by the human pathogen C. albicans.     

Cross-kingdom interactions: Candida albicans and bacteria

Bacteria and fungi are found together in a myriad of environments and particularly in a biofilm, where adherent species interact through diverse signaling mechanisms. Yet, despite billions of years of coexistence, the area of research exploring fungal–bacterial interactions, particularly within the context of polymicrobial infections, is still in its infancy. However, reports describing a multitude of wide-ranging interactions between the fungal pathogen Candida albicans and various bacterial pathogens are on the rise. An example of a mutually beneficial interaction is coaggregation, a phenomenon that takes place in oral biofilms where the adhesion of C. albicans to oral bacteria is considered crucial for its colonization of the oral cavity. In contrast, the interaction between C. albicans and Pseudomonas aeruginosa is described as being competitive and antagonistic in nature. Another intriguing interaction is that occurring between Staphylococcus aureus and C. albicans , which although not yet fully characterized, appears to be initially synergistic. These complex interactions between such diverse and important pathogens would have significant clinical implications if they occurred in an immunocompromised host. Therefore, understanding the mechanisms of adhesion and signaling involved in fungal–bacterial interactions may lead to the development of novel therapeutic strategies for impeding microbial colonization and development of polymicrobial disease.     

Membrane fluidity affects functions of Cdr1p, a multidrug ABC transporter of Candida albicans

Earlier, we have shown that the overexpression of an ABC transporter, CDR1, is involved in the emergence of multidrug resistance in Candida albicans. In this study, we checked its function in vivo by expressing it in different isogenic Saccharomyces cerevisiae erg mutants, which accumulated various intermediates of the ergosterol biosynthesis and thus altered the membrane fluidity. Functions like the accumulation of rhodamine 123, beta-estradiol, fluconazole and floppase activity associated with Cdr1p were measured to ascertain their responses to an altered membrane phase. The floppase activity appeared to be favoured by an enhanced membrane fluidity, while the effluxing of substrates and Cdr1p's ability to confer multidrug resistance were significantly reduced. We demonstrate that only some of the functions of Cdr1p were affected by an altered lipid environment.     

HOG1基因对白念珠菌超微结构的影响

目的探讨HOG1基因对白念珠菌超微结构的影响。方法设置实验组、HOG21组(hog1/hog1双等位基因缺陷株);对照组、WT组(标准株),分别在扫描电镜及透射电镜下观察两组菌株细胞的超微结构。结果扫描电镜下观察两组细胞均呈圆形或椭圆形,呈多边出芽繁殖的生长方式。但HOG1基因缺陷株细胞表面粗糙、凹凸不平,出芽数目比标准株少;标准株细胞表面光滑,出芽数量较多,可见"花瓣样"结构的芽痕;透射电镜下HOG1基因缺陷株细胞壁结构不完整,电子透明层厚薄不一,部分细胞可见棉絮状电子致密外层局灶性缺失、细胞膜外凸、不连续以及细胞膜周围见囊泡聚集等现象。标准株细胞壁各层结构完整。结论HOG1基因对白念珠菌细胞壁结构具有一定影响。     

Azole sensitivity in Candida albicans

Abstract In the present study, we assessed the influence of three culture media on the susceptibility 'in vitro' of twenty four clinical strains belonging to Candida albicans against three imidazole-derivatives and also, we investigated the situation of azole sensitivity in three of these strains.     

Retinol-induced modification of the extracellular matrix of endothelial cells: Its role in growth control

Summary The growth of the endothelial cell (EC) is tightly regulated throughout the body. Many factors have been implicated in modulating EC growth including diffusible compounds, cell-to-cell interactions, and the extracellular matrix (ECM). Retinol, or vitamin A alcohol, has recently been shown to inhibit the growth of bovine capillary ECs, in vitro. Retinoids are known to modify ECM in other cell systems, and pure ECM components have been shown to effect EC growth rates. We, therefore, examined the role of the matrix in the retinol-induced inhibition of ECs. Cell-free matrices from control and vitamin A-treated ECs were prepared by removing cells with EGTA treatment after 7 d of culture. Matrix proteins were analyzed by solubilizing the matrices in 5M quanidine-HCl and performing Western blot analysis using specific antibodies to matrix proteins. In isolating the ECM, we observed that retinol-treated cultures of ECs were resistant to EGTA removal; retinol-treated ECs required twice the exposure time to EGTA to detach from their matrix than did controls cells. Western blot analysis of matrix proteins derived from control and retinol-treated EC cultures demonstrated a 1.6-fold increase in lamininβ chains and a 2.5-fold increase in fibronectin in the ECM of retinol-treated EC compared to control cell matrix. Functional properties of these matrices were assessed by plating control and Day 6 retinol-treated ECs onto the matrices and measuring attachment and growth by determining cell numbers at 24, 72, and 144 h. These studies revealed that control cells attached in greatest numbers to a control matrix whereas retinol-treated ECs preferentially attached to a matrix derived from retinol-treated cells. Furthermore, control ECs which grew rapidly on a control matrix were growth inhibited on a retinol-derived matrix. These data indicate that vitamin A treatment of ECs effects both their phenotype and influences the composition and the functional properties of their underlying ECM. These studies also demonstrate that alterations of the matrix are at least in part responsible for the growth inhibition of EC by retinol.     

Contribution of cell surface hydrophobicity protein 1 (Csh1p) to virulence of hydrophobic Candida albicans serotype A cells

The CSH1 gene product is the first protein implicated to affect the phenotype of cell surface hydrophobicity in Candida albicans. Ablation of expression of CSH1 resulted in a 75% loss of the cell surface hydrophobicity (CSH) phenotype. When the C. albicans csh1 knockout derivative was cultured from frozen stocks, it had reacquired CSH levels similar to the parent strain and isogenic reintegrant in the absence of Csh1p re-expression through an unknown mechanism. Prior to reacquisition of CSH, the knockout was less adherent to fibronectin than the parent. Comparison of the csh1 knockout and CSH1 reintegrant in a hematogenous dissemination model allows analysis of Csh1p contribution to virulence using matched strains with similar levels of CSH. No statistical significance between the knockout and reintegrant was found in virulence based on median day of survival, although a reproducible delay in onset of lethal infection for the knockout was observed. A modest difference in mucosal colonization in a vaginal infection model was also observed between the knockout and reintegrant. The present study demonstrates that Csh1p contributes to virulence of C. albicans in mice, but other gene products also contribute to the CSH phenotype and virulence.     

白念珠菌SSK1突变株对氟康唑敏感性的初步研究

目的探讨氟康唑作用于白念珠菌双组分信号传导途径SSK1突变株SSK21后药物敏感性的变化。方法采用微量液体稀释法和固醇测定法测定野生株(CAF2-1)和突变株(SSK21)的最小抑菌浓度(MIC);并应用RT-PCR观察氟康唑作用前后,SSK1的表达变化。结果氟康唑对CAF2-1的MIC为16μg/mL,对SSK21为0.032μg/mL。加入氟康唑后,CAF2-1的SSK1表达明显增加,60min时达到最多。结论 SSK21对氟康唑高度敏感,SSK1基因及其相关的重要基因与药物敏感性的关系值得进一步研究,从而为新的抗真菌药物和治疗途径的研发提供参考。     

Antagonistic interplay of Swi1 and Tup1 on filamentous growth of Candida albicans

Candida albicans is a polymorphic human opportunistic pathogen in which the Swi-Snf complex functions as an activator whereas Tup1 acts as a general repressor during the yeast-hyphae transition. In Saccharomyces cerevisiae, the interplay between the Swi-Snf complex and the Tup1-Ssn6 repressive complex regulates the balance between active and repressed chromatin structures of a number of genes. To study the interplay between Candida albicans Swi1 and Tup1 and their effects on morphogenesis, we analyzed phenotypes of swi1/swi1, tup1/tup1 and swi1/swi1 tup1/tup1 mutants under various growth conditions. The swi1/swi1 mutant failed to form true hyphae, whereas the tup1/tup1 mutant exhibited constitutive filamentous growth. Deletion of SWI1 in the tup1/tup1 mutant completely blocked hyphal growth under all the conditions examined. Under aerobic conditions, the swi1/swi1 tup1/tup1 mutant most resembled the swi1/swi1 mutant in phenotype, actin polarization and gene expression pattern. In invaded agar, the double mutant showed similar phenotypes as the swi1/swi1 mutant, while under embedded conditions, it grew as a pseudohypha-like form different from that of the wild-type strain, swi1/swi1 or tup1/tup1 mutants. These results suggest that Swi1 may play a dominant role by antagonizing the repressive effect of the Tup1 on hyphal development in C. albicans.     

白念珠菌SPE1基因高表达菌株构建及鉴定

目的构建白念珠菌SPEl基因高表达菌株。方法将白念珠菌．SPEl基因的ORF置于高表达质粒载体pCaE—xP的MErF3启动子后面,构建pCaEXP—SPEJ的高表达质粒,然后采用醋酸锂转染法将高表达质粒转染白念珠菌RMl000中,在SD—ura’met—cys-选择性固体培养基上筛选阳性克隆,抽取基因组进行PCR验证,将验证为阳性转染子的菌落采用RealTimeRT．PCR方法进行SPE1基因转录水平的表达验证。结果通过酶切鉴定pCaEXP—SPEl高表达质粒构建正确;通过PCR验证表明SPEl基因整合到亲本菌中的RPl0位点;通过RealTimeRT—PCR方法筛选出sPEJ基因在转录水平高表达的菌株。结论利用高表达质粒载体pCaEXP通过基因同源重组等方法正确构建SPEl基因高表达的白念珠菌。     

Candida albicans ABG1 gene is involved in endocytosis

The human fungal pathogen Candida albicans undergoes reversible morphogenetic transitions between yeast, hyphal and pseudohyphal forms. The fungal vacuole actively participates in differentiation processes and plays a key role supporting hyphal growth. The ABG1 gene of C. albicans encodes an essential protein located in the vacuolar membranes of both yeast and hyphae. Using fluorescence microscopy of a green fluorescent protein-tagged version of Abg1p, a fraction of the protein was detected in hyphal tips, not associated with vacuolar membranes. Live cell imaging of emerging germ tubes showed that Abg1p migrated to the polarized growth site and colocalized with endocytic vesicles. Phenotypic analysis of a methionine-regulated conditional mutant confirmed that Abg1p is involved in endocytosis.