念珠菌属的生物膜形成能力取决于环境中的氧气浓度。
Biofilm-formation capability depends on environmental oxygen concentrations in Candida species.
作者信息
Koshikawa Takuro, Abe Masahiro, Nagi Minoru, Miyazaki Yoshitsugu, Takemura Hiromu
机构信息
Department of Microbiology, St. Marianna University School of Medicine, Kawasaki, Japan; Department of Fungal Infection, National Institute of Infectious Diseases, Tokyo, Japan.
Department of Fungal Infection, National Institute of Infectious Diseases, Tokyo, Japan.
出版信息
J Infect Chemother. 2022 May;28(5):643-650. doi: 10.1016/j.jiac.2022.01.010. Epub 2022 Feb 1.
BACKGROUND
Although oxygen concentrations inside of the human body vary depending on organs or tissues, few reports describe the relationships between biofilm formation of Candida species and oxygen concentrations. In this study, we investigated the biofilm-forming capabilities of Candida species under various oxygen conditions.
METHODS
We evaluated the adhesion and biofilm formation of Candida albicans and C. tropicalis under aerobic, microaerobic (oxygen concentration 5%), or anaerobic conditions. We also examined how oxygen concentration affects adhesion/maturation by changing adhesion/maturation phase conditions. We used crystal violet assay to estimate the approximate biofilm size, performed microscopic observation of biofilm morphology, and evaluated adhesion-associated gene expression.
RESULTS
The adhered amount was relatively small except for a clinical strain of C. tropicalis. Our biofilm-formation analysis showed that C. albicans formed a higher-size biofilm under aerobic conditions, while C. tropicalis favored microaerobic conditions to form mature biofilms. Our microscopic observations were consistent with these biofilm-formation analysis results. In particular, C. tropicalis exhibited more hyphal formation under microaerobic conditions. By changing the adhesion/maturation phase conditions, we represented that C. albicans had favorable biofilm-formation capability under aerobic conditions, while C. tropicalis showed enhanced biofilm formation under microaerobic adhesion conditions. In good agreement with these results, the C. tropicalis adhesion-associated gene expression tended to be higher under microaerobic or anaerobic conditions.
CONCLUSIONS
C. albicans favored aerobic conditions to form biofilms, whereas C. tropicalis showed higher biofilm-formation ability and promoted hyphal growth under microaerobic conditions. These results indicate that favorable oxygen conditions significantly differ for each Candida species.
背景
尽管人体内的氧气浓度因器官或组织而异,但很少有报告描述念珠菌属生物膜形成与氧气浓度之间的关系。在本研究中,我们调查了念珠菌属在各种氧气条件下的生物膜形成能力。
方法
我们评估了白色念珠菌和热带念珠菌在需氧、微需氧(氧气浓度5%)或厌氧条件下的黏附及生物膜形成情况。我们还通过改变黏附/成熟阶段条件来研究氧气浓度如何影响黏附/成熟过程。我们使用结晶紫测定法估计生物膜的大致大小,对生物膜形态进行显微镜观察,并评估黏附相关基因的表达。
结果
除了一株热带念珠菌临床分离株外,黏附量相对较小。我们的生物膜形成分析表明,白色念珠菌在需氧条件下形成的生物膜更大,而热带念珠菌在微需氧条件下更有利于形成成熟生物膜。我们的显微镜观察结果与这些生物膜形成分析结果一致。特别是,热带念珠菌在微需氧条件下表现出更多的菌丝形成。通过改变黏附/成熟阶段条件,我们发现白色念珠菌在需氧条件下具有良好的生物膜形成能力,而热带念珠菌在微需氧黏附条件下生物膜形成增强。与这些结果高度一致的是,热带念珠菌黏附相关基因表达在微需氧或厌氧条件下往往更高。
结论
白色念珠菌倾向于在需氧条件下形成生物膜,而热带念珠菌在微需氧条件下表现出更高的生物膜形成能力并促进菌丝生长。这些结果表明,每种念珠菌属所需的适宜氧气条件存在显著差异。
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