Shiela Marie Gines Selisana, Xinyue Chen, Eny Mahfudhoh, Anom Bowolaksono, Anna Rozaliyani, Kanami Orihara, Susumu Kajiwara
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引用次数: 0
摘要
念珠菌是一种新出现的致病性酵母菌,已被列为全球公共卫生威胁和真菌病原体中的重中之重。尽管如此,人们对念珠菌感染的免疫反应仍不甚了解。宿主通过免疫系统识别真菌细胞壁上的病原体相关分子模式(如β-葡聚糖、甘露聚糖和几丁质)来对抗念珠菌感染。在这项研究中,通过流式细胞仪分析,量化了在不同生理刺激下生长的 C. auris 的 β-葡聚糖和甘露聚糖暴露水平。乳酸盐、缺氧和亚致死浓度的氟康唑会导致表面β-葡聚糖减少,而低pH值会导致β-葡聚糖增加。在这三个支系中,细胞壁结构中的β-葡聚糖和甘露聚糖暴露水平之间不存在反比模式。为了确定细胞壁重塑对免疫反应的影响,进行了吞噬试验,然后用酶联免疫吸附试验对释放的细胞因子进行定量。乳酸盐诱导的β-葡聚糖减少导致 PMA 分化的 THP-1 和 RAW 264.7 巨噬细胞对 C. auris 的摄取减少。此外,还观察到 CCL3/MIP-1⍺ 的产生减少,但 TNF-⍺ 和 IL-10 的产生没有减少。利用家蚕进行的体内感染分析表明,β-葡聚糖的减少会导致蛔虫的毒力增强。这项研究表明,β-葡聚糖在蚕体内发生改变,并成为一种逃避免疫细胞的机制,从而导致毒力增强。
Alteration of β-glucan in the emerging fungal pathogen Candida auris leads to immune evasion and increased virulence.
Candida auris is an emerging pathogenic yeast that has been categorized as a global public health threat and a critical priority among fungal pathogens. Despite this, the immune response against C. auris infection is still not well understood. Hosts fight Candida infections through the immune system that recognizes pathogen-associated molecular patterns such as β-glucan, mannan, and chitin on the fungal cell wall. In this study, levels of β-glucan and mannan exposures in C. auris grown under different physiologically relevant stimuli were quantified by flow cytometry-based analysis. Lactate, hypoxia, and sublethal concentration of fluconazole trigger a decrease in surface β-glucan while low pH triggers an increase in β-glucan. There is no inverse pattern between exposure levels of β-glucan and mannan in the cell wall architecture among the three clades. To determine the effect of cell wall remodeling on the immune response, a phagocytosis assay was performed, followed by quantification of released cytokines by ELISA. Lactate-induced decrease in β-glucan leads to reduced uptake of C. auris by PMA-differentiated THP-1 and RAW 264.7 macrophages. Furthermore, reduced production of CCL3/MIP-1⍺ but not TNF-⍺ and IL-10 were observed. An in vivo infection analysis using silkworms reveals that a reduction in β-glucan triggers an increase in the virulence of C. auris. This study demonstrates that β-glucan alteration occurs in C. auris and serves as an escape mechanism from immune cells leading to increased virulence.
期刊介绍:
Medical Microbiology and Immunology (MMIM) publishes key findings on all aspects of the interrelationship between infectious agents and the immune system of their hosts. The journal´s main focus is original research work on intrinsic, innate or adaptive immune responses to viral, bacterial, fungal and parasitic (protozoan and helminthic) infections and on the virulence of the respective infectious pathogens.
MMIM covers basic, translational as well as clinical research in infectious diseases and infectious disease immunology. Basic research using cell cultures, organoid, and animal models are welcome, provided that the models have a clinical correlate and address a relevant medical question.
The journal also considers manuscripts on the epidemiology of infectious diseases, including the emergence and epidemic spreading of pathogens and the development of resistance to anti-infective therapies, and on novel vaccines and other innovative measurements of prevention.
The following categories of manuscripts will not be considered for publication in MMIM:
submissions of preliminary work, of merely descriptive data sets without investigation of mechanisms or of limited global interest,
manuscripts on existing or novel anti-infective compounds, which focus on pharmaceutical or pharmacological aspects of the drugs,
manuscripts on existing or modified vaccines, unless they report on experimental or clinical efficacy studies or provide new immunological information on their mode of action,
manuscripts on the diagnostics of infectious diseases, unless they offer a novel concept to solve a pending diagnostic problem,
case reports or case series, unless they are embedded in a study that focuses on the anti-infectious immune response and/or on the virulence of a pathogen.
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