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>Virulence factors, antifungal susceptibility and molecular mechanisms of azole resistance among Emphasis Type="Italic"Candida parapsilosis/Emphasis complex isolates recovered from clinical specimens
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Virulence factors, antifungal susceptibility and molecular mechanisms of azole resistance among Emphasis Type="Italic"Candida parapsilosis/Emphasis complex isolates recovered from clinical specimens
BackgroundThe aim of this study was to determine the biofilm formation, the extracellular enzymatic activities of 182 clinical isolates of the Candida parapsilosis complex. MethodsMolecular identification of the C. parapsilosis species complex was performed using PCR RFLP of SADH gene and PCR sequencing of ITS region. The susceptibility of ours isolates to antifungal agents and molecular mechanisms underlying azole resistance were evaluated.Results63.5% of C. parapsilosis were phospholipase positive with moderate activity for the majority of strains. None of the C. metapsilosis or C. orthopsilosis isolates was able to produce phospholipase. Higher caseinase activities were detected in C. parapsilosis (Pz?=?0.5?±?0.18) and C. orthopsilosis (Pz?=?0.49?±?0.07) than in C. metapsilosis isolates (Pz?=?0.72?±?0.1). 96.5% of C. parapsilosis strains and all isolates of C. metapsilosis and C. orthopsilosis produced gelatinase. All the strains possessed the ability to show haemolysis on blood agar. C. metapsilosis exhibited the low haemolysin production with statistical significant differences compared to C. parapsilosis and C. orthopsilosis . The biofilm forming ability of C. parapsilosis was highly strain dependent with important heterogeneity, which was less evident with both C. orthopsilosis and C. metapsilosis .Some C. parapsilosis isolates met the criterion for susceptible dose dependent to fluconazole (10.91%), itraconazole (16.36%) and voriconazole (7.27%). Moreover, 5.45% and 1.82% of C. parapsilosis isolates were respectively resistant to fluconazole and voriconazole. All strains of C. metapsilosis and C. orthopsilosis were susceptible to azoles; and isolates of all three species exhibited 100% of susceptibility to caspofungin, amphotericin B and 5-flucytosine.ConclusionsA combination of molecular mechanisms, including the overexpression of ERG11, and genes encoding efflux pumps (CDR1, MDR1, and MRR1) were involved in azole resistance in C. parapsilosis .
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机译:背景本研究的目的是确定182副念珠菌复合物临床分离株的生物膜形成和细胞外酶活性。方法利用SADH基因的PCR RFLP和ITS区的PCR测序技术对副寄生虫种复合物进行分子鉴定。评价了我们分离株对抗真菌药的敏感性以及引起唑抗性的分子机制。结果:63.5%的副孢梭菌为磷脂酶阳性,大多数菌株具有中等活性。 C. metapsilosis或C. orthopsilosis分离株均不能产生磷脂酶。在副炭黑假单胞菌(Pzα=?0.5?±?0.18)和直立假单胞菌(Pz?=?0.49?±?0.07)中检出的酪蛋白酶活性比在分离的假单胞菌(Pz?=?0.72?±?)的情况下更高。 0.1)。 96.5%的副疟原虫菌株以及隐孢子虫和直立弯曲菌的所有分离株均产生明胶酶。所有菌株均具有在血琼脂上显示溶血的能力。 C. metapsilosis与C. parapsilosis和C. orthopsilosis相比,溶血素的产生量较低,具有统计学差异。副C. parapsilosis的生物膜形成能力高度依赖菌株,具有重要的异质性,在C. orthopsilosis和C. metapsilosis中均不明显。一些副C. parapsilosis分离物符合氟康唑(10.91%)易感剂量的标准(16.36%)和伏立康唑(7.27%)。此外,有5.45%和1.82%的副疟原虫分离株分别对氟康唑和伏立康唑有抗药性。所有的C. metapsilosis和C. orthopsilosis菌株均对唑类敏感。所有这三个物种的分离株均对卡泊芬净,两性霉素B和5-氟胞嘧啶表现出100%的敏感性。结论包括ERG11过表达在内的分子机制的组合,以及编码外排泵的基因(CDR1,MDR1和MRR1)均与唑类有关。副念珠菌的耐药性。
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