临床标本分离的皮肤真菌的体外酶毒力因子研究

F. Mohammadi, Amirhossein Gholamlou, M. Mirzadeh, Z. Ghasemi, Hadi Aliyari
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摘要

背景:皮肤真菌是影响皮肤角质层和角质层结构的嗜角真菌。暴力因素在皮肤真菌的发病机制和抗真菌抗性中起着至关重要的作用。目的:探讨细胞外酶活性和生物膜形成对皮肤真菌分离株的毒力影响。方法:分离的58株皮肤真菌属27种毛癣菌。红藓属植物19种(32.8%),小孢子植物12种(46.6%)。检测了用于评价磷脂酶、溶血素、蛋白酶和生物膜形成活性的Canis(20.7%)。通过扫描电镜对所形成的生物膜进行了分析。结果:对细胞外酶产量的评估显示,86.2%、77.6%和57%的皮癣菌菌株分别产生磷脂酶、溶血素和蛋白酶。此外,所有分离株均能产生磷脂酶和溶血素。磷脂酶活性与皮癣菌间差异有统计学意义(P<0.05)。此外,41.5%的皮肤真菌分离株具有生物膜形成能力。从指甲屑中分离出的93%的皮癣菌的生物膜产量最高。分离的皮菌在不同部位的生物膜形成差异有统计学意义(P <0.05)。结论:水解酶活性和生物膜的形成可能是导致皮肤真菌感染持续存在的重要致病因素。结果表明,分离的皮癣菌具有不同水平的酶活性和生物膜产量。因此,了解这些因子的功能对控制皮肤真菌感染的传播至关重要。
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In Vitro Enzymatic Virulence Factors of Dermatophytes Species Isolated From Clinical Specimens
Background: Dermatophytes are keratinophilic fungi that affect the stratum corneum of the skin and keratinous structures. Violent factors play a vital role in the pathogenesis and antifungal resistance of dermatophytes. Objective: This study aims to evaluate the activity of extracellular enzymatic and biofilm formation as virulence factors of dermatophyte isolates. Methods: Fifty-eight dermatophyte isolates belonged to 27 Trichophyton. rubrum (46.6%), 19 T. mentagrophytes (32.8%), and 12 Microsporum. canis (20.7%) for evaluating the activity of phospholipase, hemolysin, proteinase, and biofilm formation were examined. The biofilm formed was analyzed by scanning electron microscopy (SEM). Findings: Evaluation of extracellular enzymes production revealed that 86.2%, 77.6 %, and 57% of dermatophyte strains were shown to be phospholipase, hemolysin, and proteinase producers, respectively. Furthermore, all isolates of T. rubrum and M. canis can produce phospholipase and hemolysin, respectively. There was a statistically significant difference between phospholipase activity and dermatophyte strains (P<0.05). In addition, biofilm formation ability was observed in 41.5% of dermatophyte isolates. The highest level of biofilm production was found in 93% of dermatophytes isolated from nail chips. A significant difference between biofilm formation with dermatophyte isolates and different body sites was observed (P <0.05). Conclusion: The activity of hydrolytic enzymes and biofilm formation as important pathogenic factors may play a role in the persistence of dermatophytosis infections. Our results showed that dermatophyte isolates have enzymatic activity and biofilm production at different levels. Therefore, understanding the function of these factors is essential to controlling the spread of dermatophytosis infection.
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