A heme-C-containing enzyme complex that exhibits nitrate and nitrite reductase activity from the dissimilatory iron-reducing bacterium Geobacter metallireducens

Nitrate reduction in the dissimilatory iron-reducing bacterium Geobacter metallireducens was investigated. Nitrate reductase and nitrite reductase activities in nitrate-grown cells were detected only in the membrane fraction. The apparent K _m values for nitrate and nitrite were determined to be 32 and 10 μM, respectively. Growth on nitrate was not inhibited by either tungstate or molybdate at concentrations of 1 mM or less, but was inhibited by both at 10 and 20 mM. Nitrate and nitrite reductase activity in the membrane fraction was not, however, affected by dialysis with 20 mM tungstate. An enzyme complex that exhibited both nitrate and nitrite reductase activity was solubilized from membrane fractions with CHAPS and was partially purified by preparative gel electrophoresis. It was found to be composed of four different polypeptides with molecular masses of 62, 52, 36, and 16 kDa. The 62-kDa polypeptide [a low-midpoint potential (–207 mV), multiheme cytochrome c] exhibited nitrite reductase activity under denaturing conditions. No molybdenum was detected in the complex by plasma-emission mass spectrometry. Received: 26 March 1999 / Accepted: 16 August 1999     

Characterization of developmentally-regulated nucleases in promastigotes and amastigotes of Leishmania mexicana

Abstract Nitrate induced the expression of a membrane-bound nitrate reductase in the strict anaerobe Geobacter metallireducens . A fraction from a DEAE cellulose column which showed nitrate reductase activity contained polypeptides of M _r, 18, 36 and 43 K and three c type cytochromes ( M _r 28, 46 and 68 K). Western and Southern blot analysis revealed no homology between the nitrate reductase from G. metallireducens and the nitrate reductases from respiratory ( Escherichia coli ) and denitrifying bacteria ( Pseudomonas stutzeri, Pseudomonas aeruginosa ) which were shown to be related. These data, in addition to this organism's inability to use fumarate or formate, suggest that its nitrate reductase is novel.     

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.     

Degradation of human subendothelial extracellular matrix by proteinase-secreting Candida albicans

Candida albicans infections in severely immunocompromized patients are not confined to mucosal surfaces; instead the fungus can invade through epithelial and endothelial layers into the bloodstream and spread to other organs, causing disseminated infections with often fatal outcome. We investigated whether secretion of the C. albicans acid proteinase facilitates invasion into deeper tissues by degrading the subendothelial basement membrane. After cultivation under conditions that induce the secretion of the acid proteinase, C. albicans degraded radioactively metabolically labeled extracellular matrix proteins from a human endothelial cell line. The degradation was inhibited in the presence of pepstatin A, an inhibitor of acid proteinases. Pepstatin A-sensitive degradation of the soluble and immobilized extracellular matrix proteins fibronectin and laminin by proteinase-producing C. albicans was also detected, whereas no degradation was observed when the expression of the acid proteinase was repressed. Our results demonstrate that the C. albicans acid proteinase degrades human subendothelial extracellular matrix; this may be of importance in the penetration of C. albicans into circulation and deep organs.     

Inhibition of Candida albicans attachment to extracellular matrix by antibodies which recognize hydrophobic cell wall proteins

Cell surface hydrophobicity influences the adhesive properties of the opportunistic fungal pathogen Candida albicans. Hydrophobic proteins are present in the C. albicans cell wall. These proteins were used to generate a polyclonal antiserum and monoclonal antibodies. We characterized three of these monoclonal antibodies (designated 6C5, 5F8 and 5D8) that recognize different hydrophobic cell wall proteins. Initial characterization of the three antigens, and assessment of their distribution among various Candida species was also carried out. Further, pretreatment of germ tube initials with the mAb inhibits binding of these cells to immobilized extracellular matrix. These results suggest that these hydrophobic proteins are involved in C. albicans adhesion events.     

Adherence of Candida albicans to components of the subendothelial extracellular matrix

Candida albicans yeasts adhered avidly to extracellular matrix (ECM) proteins, type IV collagen, laminin, and fibronectin immobilized on plastic. Type IV collagen showed an increase of adherence of 400% above control values; laminin, 300%; and fibronectin, 150%. In addition, all three (in quantities of 0.02-200 micrograms/well of a culture tray) bound yeasts in a dose-response fashion. Adherence was inhibited when the proteins were preincubated with specific antibody, except with type IV collagen. Soluble laminin or fibronectin inhibited yeast adherence to the same proteins by 36 and 94%, respectively. Soluble fibronectin bound to the yeast surface and in so doing inhibited subsequent yeast adherence to fibronectin by 66%. By comparison, Candida albicans yeasts adhered in smaller numbers to glycosaminoglycans (GAGs). Keratan sulfate, hyaluronic acid, chondroitin sulfate, Type B, and heparin actually decreased yeast adherence compared to control from 10% to 25%.     

Monoclonal antibodies directed against extracellular matrix proteins reduce the adherence of Candida albicans to HEp-2 cells

The presence of the extracellular matrix (ECM) proteins collagen types I and IV, laminin and fibronectin on the surface of HEp-2 cells was confirmed by flow cytometry using monoclonal antibodies. Monoclonal antibodies directed against these ECM proteins reduced the adherence of C. albicans ATCC 44990 to HEp-2 cells, the greatest reductions being evident in assays which incorporated anti-collagen type IV monoclonal antibody. The ability of sugaramines to inhibit the adherence of C. albicans to a variety of cell types has been demonstrated previously and the most significant reduction in C. albicans – HEp-2 adherence was in assays which incorporated 0.2M galactosamine. The combination of anti-collagen IV monoclonal antibody and galactosamine reduced the adherence of C. albicans to HEp-2 cells by approximately 70% (p < 0.05). This revised version was published online in June 2006 with corrections to the Cover Date.     

The alternate respiratory pathway of Candida albicans

Candida albicans contains a cryptic cyanide and antimycin A insensitive respiratory system. This alternate oxidase was found (i) at all growth rates from =0.05 to 0.26 in a chemostat culture and (ii) in both mycelial and yeast forms of the organism. Neither chloramphenicol nor cycloheximide prevented the expression of the alternate oxidase. Salicyl-hydroxamic acid was a potent inhibitor of the cyanide insensitive respiration. The respiration of mitochondria grown in the presence of antimycin A was not inhibited by cyanide or antimycin A but was inhibited by salicylhydroxamic acid.Abbreviations KCN potassium cyanide - SHAM salicyl hydroxamic acid     

白念珠菌铁稳态调控网络研究进展

铁是绝大多数生物生长和代谢过程中必需的营养元素。尽管自然界中铁元素含量非常丰富,但是其生物可利用性却很低。作为一种人体常见的条件致病真菌,白念珠菌在漫长的进化过程中形成了复杂的铁稳态调控网络,能够应答环境中铁浓度的变化,增强菌株对环境的适应力。结合课题组研究工作,简要综述近几年关于铁代谢表达调控途径的研究进展,主要关注白念珠菌在环境铁匮乏条件下铁获得和调控策略,揭示白念珠菌体内铁离子摄取、转运、储存和利用机制。     

The matrilins--adaptor proteins in the extracellular matrix

The matrilins form a four-member family of modular, multisubunit matrix proteins, which are expressed in cartilage but also in many other forms of extracellular matrix. They participate in the formation of fibrillar or filamentous structures and are often associated with collagens. It appears that they mediate interactions between collagen-containing fibrils and other matrix constituents, such as aggrecan. This adaptor function may be modulated by physiological proteolysis that causes the loss of single subunits and thereby a decrease in binding avidity. Attempts to study matrilin function by gene inactivation in mouse have been frustrating and so far not yielded pronounced phenotypes, presumably because of the extensive redundancy within the family allowing compensation by one family member for another. However, mutations in matrilin-3 in humans cause different forms of chondrodysplasias and perhaps also hand osteoarthritis. As loss of matrilin-3 is not critical in mouse, these phenotypes are likely to be caused by dominant negative effects.     

白念珠菌铁通透酶基因CaFTH1的功能研究

[目的]白念珠菌CaFTH1是一种铁通透酶编码基因.为了研究CaFTH1对胞内铁代谢和液泡功能的影响,构建fth1△/△单基因缺失菌株和fth1△/△fet33△/△双基因缺失菌株.[方法]利用生物信息学软件对CaFTH1进行序列比对和分析;通过实时荧光定量PCR技术研究铁离子丰度对CaFTH1表达的影响;利用PCR介导的同源重组方法构建基因缺失菌株;利用原子吸收光谱方法测定基因缺失菌株胞内铁含量的变化,并对基因缺失菌株在缺铁条件和菌丝诱导条件下的生长状况进行研究;通过代谢转换实验,研究CaFTH1对细胞液泡功能的影响.[结果]序列比对结果表明白念珠菌CaFth1蛋白属于铁通透酶Ftr1超家族,与酿酒酵母液泡膜蛋白ScFth1具有最高的同源性.铁匮乏条件会诱导CaFTH1的表达,而富铁条件则会抑制其表达.白念珠菌CaFTH1的缺失会导致胞内铁含量的降低,fth1△/△突变菌株基础上CaFET33的缺失则会进一步降低胞内铁含量.在缺铁条件下,fth1△/△fet33△/△双基因缺失菌株在一定程度上表现出代谢转换能力的缺陷.另外,在某些固体菌丝诱导培养条件下,fth1△/△fet33△/△缺失菌株菌落表面形成褶皱能力显著增强;而在液体菌丝诱导条件下,则表现为增强的菌丝聚集能力.[结论]CaFTH1是一种低铁应答基因,在维持白念珠菌胞内铁离子稳态及液泡功能方面具有重要作用.CaFTH1和CaFET33基因的双缺失会对白念珠菌的菌落形态和菌丝聚集产生影响.     

白假丝酵母菌耐药与抗氰呼吸的相关性研究

目的探讨白假丝酵母菌的耐药情况及其与抗氰呼吸的相关性。方法用真菌药敏测定试剂盒测定从临床分离出来的37株白假丝酵母菌的耐药性,并从中选出5株耐药菌和5株敏感菌进行抗氰呼吸的研究。结果白假丝酵母菌对益康唑的耐药率最高,达54.1%,耐药白假丝酵母菌的抗氰呼吸速率均值为(17.56±6.75)nmol/(min.A620),敏感白假丝酵母菌的抗氰呼吸速率均值为(7.99±5.80)nmol/(min.A620),耐药白假丝酵母菌的抗氰呼吸速率明显升高,且耐药菌株抗氰呼吸速率占总呼吸的比例明显高于敏感菌株(P0.05),差异具有显著性。结论兰州市区白假丝酵母菌对益康唑耐药性较高,且白假丝酵母菌的耐药与抗氰呼吸途径相关。     

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.     

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.     

A proteomic analysis of secretory proteins of a pre-vacuolar mutant of Candida albicans

S. cerevisiae mutants lacking VPS4 missort several vacuolar proteins to the extracellular space, including carboxypeptidase (CPY), vacuolar protease A (PrA), and vacuolar protease B (PrB). In addition, certain soluble secretory proteins, such as invertase and acid phosphatase, are missorted from the pre-vacuolar compartment (PVC) to the general secretory pathway prior to exocytosis. Although little is known about sorting of proteins via the PVC in Candida albicans, we have previously demonstrated that the C. albicans vps4Δ null mutant missorts PrA and CPY extracellularly, but fails to secrete the aspartyl proteases Sap2p and Sap4–6p. To further define the role of C. albicans VPS4 in the trafficking of pre-vacuolar proteins, we have used 2 dimensional gel electrophoresis (2-DE) and mass spectrometry techniques to study soluble proteins in the supernatants of planktonic cultures obtained from the C. albicans vps4Δ mutant compared to control strain DAY185. Results indicated that lack of VPS4 results in a decrease of canonically secreted proteins whilst having a limited effect on non-canonically secreted extracellular proteins. Four canonically secreted proteins (Cht3p, Pra1p, Mp65p and Sun41p) were identified as reduced in the supernatants from the mutant strain. We also indentified two other major consequences of lack of VPS4, likely associated with secretion defects: altered branching and biofilm formation.     

Effect of iron concentration on siderophore synthesis and pigment production by Candida albicans

Twelve strains of Candida albicans were grown in defined medium which had been deferrated by ion-exchange chromatography and then supplemented with FeCl3 to give iron concentrations ranging from 0.026 microM (growth-limiting) to 0.8 microM (excess). All of the strains secreted hydroxamate-type siderophores; phenolate siderophores were not detected. Isolates of C. lusitaniae, C. glabrata and C. parapsilosis also secreted hydroxamate but not phenolate-type iron chelators. Siderophore synthesis by C. albicans was maximal during growth in 0.026-0.2 microM iron. These low concentrations of iron also induced the synthesis of a green pigment, with maximal production at 0.026 microM. The pigment could be partially separated from hydroxamate siderophore activity on a column of Sephadex G-10 indicating that it probably does not function as an iron chelator.     

Characterization of Shewanella oneidensis MtrC: a cell-surface decaheme cytochrome involved in respiratory electron transport to extracellular electron acceptors

MtrC is a decaheme c-type cytochrome associated with the outer cell membrane of Fe(III)-respiring species of the Shewanella genus. It is proposed to play a role in anaerobic respiration by mediating electron transfer to extracellular mineral oxides that can serve as terminal electron acceptors. The present work presents the first spectropotentiometric and voltammetric characterization of MtrC, using protein purified from Shewanella oneidensis MR-1. Potentiometric titrations, monitored by UV–vis absorption and electron paramagnetic resonance (EPR) spectroscopy, reveal that the hemes within MtrC titrate over a broad potential range spanning between approximately +100 and approximately −500 mV (vs. the standard hydrogen electrode). Across this potential window the UV–vis absorption spectra are characteristic of low-spin c-type hemes and the EPR spectra reveal broad, complex features that suggest the presence of magnetically spin-coupled low-spin c-hemes. Non-catalytic protein film voltammetry of MtrC demonstrates reversible electrochemistry over a potential window similar to that disclosed spectroscopically. The voltammetry also allows definition of kinetic properties of MtrC in direct electron exchange with a solid electrode surface and during reduction of a model Fe(III) substrate. Taken together, the data provide quantitative information on the potential domain in which MtrC can operate.