生物
吞噬小体
下调和上调
光滑假丝酵母
细胞内
免疫系统
微生物学
平衡
抑制因子
铁稳态
免疫学
转录因子
细胞生物学
基因
抗真菌
遗传学
吞噬体
作者
Michael Riedelberger,Philipp Penninger,Michael Tscherner,Markus Seifert,Sabrina Jenull,Carina Brunnhofer,Bernhard Scheidl,Irina Tsymala,Christelle Bourgeois,Andriy Petryshyn,Walter Glaser,Andreas Limbeck,Birgit Strobl,Guenter Weiss,Karl Kuchler
标识
DOI:10.1016/j.chom.2020.01.023
摘要
Type I interferons (IFNs-I) fulfil multiple protective functions during pathogenic infections, but they can also cause detrimental effects and enhance immunopathology. Here, we report that IFNs-I promote the dysregulation of iron homeostasis in macrophages during systemic infections with the intracellular pathogen Candida glabrata, leading to fungal survival and persistence. By engaging JAK1, IFNs-I disturb the balance of the transcriptional activator NRF2 and repressor BACH1 to induce downregulation of the key iron exporter Fpn1 in macrophages. This leads to enhanced iron accumulation in the phagolysosome and failure to restrict fungal access to iron pools. As a result, C. glabrata acquires iron via the Sit1/Ftr1 iron transporter system, facilitating fungal intracellular replication and immune evasion. Thus, IFNs-I are central regulators of iron homeostasis, which can impact infection, and restricting iron bioavailability may offer therapeutic strategies to combat invasive fungal infections.
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