The infective ability of Candida species depends on specific virulence mechanisms that confer the ability to colonize host surfaces, to invade deeper host tissue or to evade host defences. During the pathogenic process many virulence attributes may be involved including, production of extracellular proteases and haemolytic activity. Nevertheless, in vitro studies have indicated that antifungal agents could be able to influence the enzymatic activity of Candida species. Therefore, the purpose of this work was to investigate the action of antifungals on proteinase and haemolytic activity of Candida species. This study was conducted with C. albicans (1), C. glabrata (4), C. parapsilosis (5) and C. tropicalis (6) recovered from different body sites (blood, oral, vaginal and urinary tract). Four reference strains of C. albicans ATCC 90028, C. glabrata ATCC 2001, C. parapsilosis ATCC 22019 and C. tropicalis ATCC 750 were also examined. The susceptibility to fluconazole and amphotericin B was determined by the microdilution test in order to allow the determination of the minimal inhibitory concentrations (MIC) and the maximum antifungal concentration (MAC). Then, the proteinase and hemolytic activity was determined for yeasts grown at MIC and MAC. It was observed that all Candida species assayed were sensible to both antifungal agents. Concerning the antifungal effect on enzymatic activity of Candida species, C. parapsilosis from candiduria presented a decreased proteinase and haemolysin activity for both MIC and MAC of both antifungal agents. Moreover, the other species presented differences in terms of production of proteinase and haemolysin at MIC and MAC. Candida albicans reference strain presented lower proteinase activity at MIC of fluconazole (46.7%) but presented higher activity for MAC (61.9%) in comparison to the control (60%). Furthermore, regarding haemolysin activity there were isolates that expressed high levels of enzymes in the presence of both antifungals such as: C. glabrata from urine and from vaginal tract; and C. tropicalis from urine. Conversely, some clinical isolates, presented low levels of enzymatic activity after contact with the antifungal agents, such as: C. albicans (oral isolate); C. glabrata (oral isolate and vaginal isolate); C. parapsilosis (from urine) and also all C. tropicalis except one urinary isolate. It was possible to conclude that the proteinase and haemolysin activities were strain and species dependent and no correlation was found among activity profile and the site of isolation. Moreover, fluconazole and amphotericin B were able to influence the tested Candida species enzymatic activity.
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机译:念珠菌的感染能力取决于赋予宿主表面定殖,侵入更深的宿主组织或逃避宿主防御能力的特定毒力机制。在致病过程中,可能涉及许多毒力属性,包括细胞外蛋白酶的产生和溶血活性。然而,体外研究表明,抗真菌剂能够影响念珠菌的酶活性。因此,这项工作的目的是研究抗真菌剂对念珠菌物种的蛋白酶和溶血活性的作用。这项研究是利用从不同身体部位(血液,口腔,阴道和泌尿道)回收的白色念珠菌(1),光滑念珠菌(4),副念珠菌(5)和热带念珠菌(6)进行的。还检查了四个白色念珠菌ATCC 90028,光滑念珠菌ATCC 2001,副念珠菌ATCC 22019和热带念珠菌ATCC 750的参考菌株。通过微量稀释试验确定对氟康唑和两性霉素B的敏感性,以便确定最小抑菌浓度(MIC)和最大抗真菌浓度(MAC)。然后,确定在MIC和MAC处生长的酵母的蛋白酶和溶血活性。观察到,所有检测到的念珠菌都对两种抗真菌药敏感。关于念珠菌属物种的酶活性的抗真菌作用,来自念珠菌的C. parapsilosis对两种抗真菌剂的MIC和MAC都有降低的蛋白酶和溶血素活性。此外,其他物种在MIC和MAC的蛋白酶和溶血素产生方面也存在差异。白色念珠菌参考菌株在氟康唑的MIC处具有较低的蛋白酶活性(46.7%),但与对照(60%)相比,在MAC上具有较高的蛋白酶活性(61.9%)。此外,关于溶血素的活性,在两种抗真菌剂的存在下,分离株均能表达高水平的酶,例如:尿液和阴道中的光滑毛状线虫;以及来自尿液的热带念珠菌。相反,一些临床分离株在与抗真菌剂接触后表现出低水平的酶活性,例如:白色念珠菌(口服分离株); C. glabrata(口腔分离物和阴道分离物); C. parapsilosis(来自尿液)以及所有的C.tropicis(除了一种尿液隔离株)。可以得出结论,蛋白酶和溶血素的活性是菌株和物种依赖性的,并且在活性谱和分离位点之间未发现相关性。此外,氟康唑和两性霉素B能够影响被测念珠菌的酶活性。
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