前沿：NOX2 NADPH 氧化酶通过限制 I 型 IFN 反应来控制胞内细菌病原体的感染。

Cutting Edge: NOX2 NADPH Oxidase Controls Infection by an Intracellular Bacterial Pathogen through Limiting the Type 1 IFN Response.

机构信息

Cell Biology Program, Hospital for Sick Children, Toronto, Ontario M5G 0A4, Canada.

Department of Molecular Genetics, University of Toronto, Toronto, Ontario M5S 1A1, Canada.

出版信息

J Immunol. 2021 Jan 15;206(2):323-328. doi: 10.4049/jimmunol.2000694. Epub 2020 Dec 7.

DOI:10.4049/jimmunol.2000694

PMID:33288542

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7776882/

Abstract

The NOX2 NADPH oxidase (NOX2) produces reactive oxygen species to kill phagosome-confined bacteria. However, we previously showed that is able to avoid the NOX2 activity in phagosomes and escape to the cytosol. Thus, despite the established role of NOX2 limiting infection in mice, the underlying mechanisms of this antibacterial activity remain unclear. In this article, we report that NOX2 controls systemic spread through modulation of the type I IFN response, which is known to be exploited by during infection. NOX2 deficiency results in increased expression of IFN-stimulated genes in response to type I IFN and leads to 1) promotion of cell-to-cell spread by , 2) defective leukocyte recruitment to infection foci, and 3) production of anti-inflammatory effectors IL-10 and thioredoxin 1. Our findings report a novel antimicrobial role for NOX2 through modulation of type I IFN responses to control bacterial dissemination.

摘要

NOX2 NADPH 氧化酶（NOX2）产生活性氧物质来杀死吞噬体中被限制的细菌。然而，我们之前曾表明，能够逃避吞噬体中的 NOX2 活性并逃到细胞质中。因此，尽管 NOX2 在小鼠中限制感染的作用已得到确立，但这种抗菌活性的潜在机制仍不清楚。在本文中，我们报告 NOX2 通过调节 I 型干扰素反应来控制全身性传播，而众所周知，在感染过程中，会利用 I 型干扰素反应。NOX2 缺陷导致对 I 型干扰素的 IFN 刺激基因表达增加，并导致 1）通过促进细胞间传播，2）感染灶中白细胞募集缺陷，和 3）产生抗炎效应物 IL-10 和硫氧还蛋白 1。我们的研究结果报告了 NOX2 通过调节 I 型干扰素反应来控制细菌传播的一种新的抗菌作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33f/7776882/123a7feef978/ji2000694absf1.jpg

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前沿：NOX2 NADPH 氧化酶通过限制 I 型 IFN 反应来控制胞内细菌病原体的感染。

Cutting Edge: NOX2 NADPH Oxidase Controls Infection by an Intracellular Bacterial Pathogen through Limiting the Type 1 IFN Response.

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