Acetylcholine Protects against Candida albicans Infection by Inhibiting Biofilm Formation and Promoting Hemocyte Function in a Galleria mellonella Infection Model.

Eukaryotic Cell Pub Date : 2015-08-01 Epub Date: 2015-06-19 DOI:10.1128/EC.00067-15
Ranjith Rajendran, Elisa Borghi, Monica Falleni, Federica Perdoni, Delfina Tosi, David F Lappin, Lindsay O'Donnell, Darren Greetham, Gordon Ramage, Christopher Nile
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引用次数: 51

Abstract

Both neuronal acetylcholine and nonneuronal acetylcholine have been demonstrated to modulate inflammatory responses. Studies investigating the role of acetylcholine in the pathogenesis of bacterial infections have revealed contradictory findings with regard to disease outcome. At present, the role of acetylcholine in the pathogenesis of fungal infections is unknown. Therefore, the aim of this study was to determine whether acetylcholine plays a role in fungal biofilm formation and the pathogenesis of Candida albicans infection. The effect of acetylcholine on C. albicans biofilm formation and metabolism in vitro was assessed using a crystal violet assay and phenotypic microarray analysis. Its effect on the outcome of a C. albicans infection, fungal burden, and biofilm formation were investigated in vivo using a Galleria mellonella infection model. In addition, its effect on modulation of host immunity to C. albicans infection was also determined in vivo using hemocyte counts, cytospin analysis, larval histology, lysozyme assays, hemolytic assays, and real-time PCR. Acetylcholine was shown to have the ability to inhibit C. albicans biofilm formation in vitro and in vivo. In addition, acetylcholine protected G. mellonella larvae from C. albicans infection mortality. The in vivo protection occurred through acetylcholine enhancing the function of hemocytes while at the same time inhibiting C. albicans biofilm formation. Furthermore, acetylcholine also inhibited inflammation-induced damage to internal organs. This is the first demonstration of a role for acetylcholine in protection against fungal infections, in addition to being the first report that this molecule can inhibit C. albicans biofilm formation. Therefore, acetylcholine has the capacity to modulate complex host-fungal interactions and plays a role in dictating the pathogenesis of fungal infections.

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乙酰胆碱通过抑制白念珠菌生物膜形成和促进血细胞功能来预防白念珠菌感染。
神经元乙酰胆碱和非神经元乙酰胆碱都已被证明可以调节炎症反应。研究乙酰胆碱在细菌感染发病机制中的作用揭示了关于疾病结局的矛盾发现。目前,乙酰胆碱在真菌感染发病机制中的作用尚不清楚。因此,本研究的目的是确定乙酰胆碱是否在真菌生物膜的形成和白色念珠菌感染的发病机制中起作用。采用结晶紫实验和表型微阵列分析评估乙酰胆碱对体外白色念珠菌生物膜形成和代谢的影响。在体内研究了其对白色念珠菌感染结果、真菌负荷和生物膜形成的影响。此外,还利用血细胞计数、细胞自旋分析、幼虫组织学、溶菌酶测定、溶血测定和实时荧光定量PCR测定了其对宿主对白色念珠菌感染的免疫调节作用。乙酰胆碱在体内和体外均有抑制白色念珠菌生物膜形成的作用。此外,乙酰胆碱还能保护白念珠菌感染的大黄蜂幼虫免于死亡。体内保护作用是通过乙酰胆碱增强血细胞功能的同时抑制白色念珠菌生物膜的形成。此外,乙酰胆碱还能抑制炎症引起的内脏损伤。这是首次证明乙酰胆碱在抵抗真菌感染方面的作用,也是首次报道该分子可以抑制白色念珠菌生物膜的形成。因此,乙酰胆碱具有调节复杂的宿主-真菌相互作用的能力,并在真菌感染的发病机制中起作用。
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Eukaryotic Cell
Eukaryotic Cell 生物-微生物学
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期刊介绍: Eukaryotic Cell (EC) focuses on eukaryotic microbiology and presents reports of basic research on simple eukaryotic microorganisms, such as yeasts, fungi, algae, protozoa, and social amoebae. The journal also covers viruses of these organisms and their organelles and their interactions with other living systems, where the focus is on the eukaryotic cell. Topics include: - Basic biology - Molecular and cellular biology - Mechanisms, and control, of developmental pathways - Structure and form inherent in basic biological processes - Cellular architecture - Metabolic physiology - Comparative genomics, biochemistry, and evolution - Population dynamics - Ecology
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