The role of N-acetylcysteine on adhesion and biofilm formation of Candida parapsilosis isolated from catheter-related candidemia.

Xiao-Shu Zuo, Qian-Yu Wang, Sha-Sha Wang, Guang Li, Li-Ying Zhan
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Abstract

Objectives. Anti-fungal agents are increasingly becoming less effective due to the development of resistance. In addition, it is difficult to treat Candida organisms that form biofilms due to a lack of ability of drugs to penetrate the biofilms. We are attempting to assess the effect of a new therapeutic agent, N-acetylcysteine (NAC), on adhesion and biofilm formation in Candida parapsilosis clinical strains. Meanwhile, to detect the transcription level changes of adhesion and biofilm formation-associated genes (CpALS6, CpALS7, CpEFG1 and CpBCR1) when administrated with NAC in C. parapsilosis strains, furthermore, to explore the mechanism of drug interference on biofilms.Hypothesis/Gap statement. N-acetylcysteine (NAC) exhibits certain inhibitory effects on adhesion and biofilm formation in C. parapsilosis clinical strains from CRBSIs through: (1) down-regulating the expression of the CpEFG1 gene, making it a highly potential candidate for the treatment of C. parapsilosis catheter-related bloodstream infections (CRBSIs), (2) regulating the metabolism and biofilm -forming factors of cell structure.Methods. To determine whether non-antifungal agents can exhibit inhibitory effects on adhesion, amounts of total biofilm formation and metabolic activities of C. parapsilosis isolates from candidemia patients, NAC was added to the yeast suspensions at different concentrations, respectively. Reverse transcription was used to detect the transcriptional levels of adhesion-related genes (CpALS6 and CpALS7) and biofilm formation-related factors (CpEFG1 and CpBCR1) in the BCR1 knockout strain, CP7 and CP5 clinical strains in the presence of NAC. To further explore the mechanism of NAC on the biofilms of C. parapsilosis, RNA sequencing was used to calculate gene expression, comparing the differences among samples. Gene Ontology (GO) enrichment analysis helps to illustrate the difference between two particular samples on functional levels.Results. A high concentration of NAC reduces the total amount of biofilm formation in C. parapsilosis. Following co-incubation with NAC, the expression of CpEFG1 in both CP7 and CP5 clinical strains decreased, while there were no significant changes in the transcriptional levels of CpBCR1 compared with the untreated strain. GO enrichment analysis showed that the metabolism and biofilm-forming factors of cell structure were all regulated after NAC intervention.Conclusions. The non-antifungal agent NAC exhibits certain inhibitory effects on clinical isolate biofilm formation by down-regulating the expression of the CpEFG1 gene, making it a highly potential candidate for the treatment of C. parapsilosis catheter-related bloodstream infections.

N-乙酰半胱氨酸对从导管相关念珠菌血症中分离出的副丝状念珠菌的粘附和生物膜形成的作用。
目的。由于抗药性的产生,抗真菌药物的效果越来越差。此外,由于药物无法穿透生物膜,因此很难治疗形成生物膜的念珠菌。我们试图评估一种新的治疗药物 N-乙酰半胱氨酸(NAC)对副丝状念珠菌临床菌株的粘附和生物膜形成的影响。同时,检测给副丝状念珠菌菌株服用 NAC 后,粘附和生物膜形成相关基因(CpALS6、CpALS7、CpEFG1 和 CpBCR1)的转录水平变化,并进一步探讨药物对生物膜的干扰机制。N-乙酰半胱氨酸(NAC)通过(1)下调CpEFG1基因的表达,对CRBSIs中副银屑病临床菌株的粘附和生物膜形成具有一定的抑制作用,使其成为治疗副银屑病导管相关血流感染(CRBSIs)的极具潜力的候选药物,(2)调节细胞结构的代谢和生物膜形成因子。为了确定非抗真菌药物是否能对念珠菌血症患者分离出的副丝状芽孢杆菌的粘附性、总生物膜形成量和代谢活性产生抑制作用,在酵母悬浮液中分别加入了不同浓度的 NAC。采用反转录方法检测了BCR1基因敲除菌株、CP7和CP5临床菌株在NAC存在下的粘附相关基因(CpALS6和CpALS7)和生物膜形成相关因子(CpEFG1和CpBCR1)的转录水平。为了进一步探索 NAC 对副丝状菌生物膜的影响机制,研究人员使用 RNA 测序计算基因表达量,比较不同样本之间的差异。基因本体(GO)富集分析有助于说明两个特定样本在功能水平上的差异。高浓度的 NAC 可减少副丝状菌的生物膜形成总量。与 NAC 共同培养后,CP7 和 CP5 临床菌株中 CpEFG1 的表达量减少,而 CpBCR1 的转录水平与未处理菌株相比没有显著变化。GO富集分析表明,NAC干预后,细胞结构的代谢和生物膜形成因子均受到调控。非抗真菌剂 NAC 通过下调 CpEFG1 基因的表达,对临床分离株生物膜的形成有一定的抑制作用,是治疗副银屑病导管相关血流感染的一种极具潜力的候选药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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