Chi3l3：广州血管圆线虫性脑膜炎嗜酸性粒细胞浸润的关键调控者

Chi3l3: a potential key orchestrator of eosinophil recruitment in meningitis induced by Angiostrongylus cantonensis.

机构信息

Department of Parasitology of Zhongshan School of Medicine, Sun Yat-sen University, No.74 Zhongshan Road.2, Guangzhou, Guangdong, 510080, China.

Key Laboratory of Tropical Disease Control (SYSU), Ministry of Education, Guangzhou, Guangdong, 510080, China.

出版信息

J Neuroinflammation. 2018 Feb 2;15(1):31. doi: 10.1186/s12974-018-1071-2.

DOI:10.1186/s12974-018-1071-2

PMID:29391024

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5796390/

Abstract

BACKGROUND

Angiostrongylus cantonensis, an important foodborne parasite, can induce serious eosinophilic meningitis in non-permissive hosts, such as mouse and human. However, the characteristics and mechanisms of the infection are still poorly understood. This study sought to determine the key molecules and its underlying mechanism in inducing brain eosinophilic infiltration caused by Angiostrongylus cantonensis.

METHODS

Mathematical models were established for prediction of significantly changing genes and the functional associated protein with RNA-seq data in Angiostrongylus cantonensis infection. The expression level of Chi3l3, the predicted key molecule, was verified using Western blotting and real-time quantitative PCR. Critical cell source of Chi3l3 and its relationship with eosinophils were identified with flow cytometry, immunohistochemistry, and further verified by macrophage depletion using liposomal clodronate. The role of soluble antigens of Angiostrongylus cantonensis in eosinophilic response was identified with mice airway allergy model by intranasal administration of Alternaria alternate. The relationship between Chi3l3 and IL-13 was identified with flow cytometry, Western blotting, and Seahorse Bioscience extracellular flux analyzer.

RESULTS

We analyzed the skewed cytokine pattern in brains of Angiostrongylus cantonensis-infected mice and found Chi3l3 to be an important molecule, which increased sharply during the infection. The percentage of inflammatory macrophages, the main source of Chi3l3, also increased, in line with eosinophils percentage in the brain. Network analysis and mathematical modeling predirect a functional association between Chi3l3 and IL-13. Further experiments verified that the soluble antigen of Angiostrongylus cantonensis induce brain eosinophilic meningitis via aggravating a positive feedback loop between IL-13 and Chi3l3.

CONCLUSIONS

We present evidences in favor of a key role for macrophave-derived Chi3l3 molecule in the infection of Angiostrongylus cantonensis, which aggravates eosinophilic meningitis induced by Angiostrongylus cantonensis via a IL-13-mediated positive feedback loop. These reported results constitute a starting point for future research of angiostrongyliasis pathogenesis and imply that targeting chitinases and chitinase-like-proteins may be clinically beneficial in Angiostrongylus cantonensis-induced eosinophilic meningitis.

摘要

背景

广州管圆线虫是一种重要的食源性寄生虫，可在非允许宿主（如鼠和人）中引起严重的嗜酸性粒细胞性脑膜炎。然而，其感染的特征和机制仍知之甚少。本研究旨在确定广州管圆线虫感染诱导脑嗜酸性粒细胞浸润的关键分子及其潜在机制。

方法

利用 RNA-seq 数据建立数学模型，预测显著变化的基因和功能相关蛋白。使用 Western blot 和实时定量 PCR 验证 Chi3l3 的表达水平，Chi3l3 是预测的关键分子。利用流式细胞术、免疫组织化学和进一步用脂质体氯膦酸盐耗竭巨噬细胞来鉴定 Chi3l3 的关键细胞来源及其与嗜酸性粒细胞的关系。通过鼻内给予Alternaria alternate 建立小鼠气道过敏模型，鉴定广州管圆线虫可溶性抗原在嗜酸性粒细胞反应中的作用。利用流式细胞术、Western blot 和 Seahorse Bioscience 细胞外通量分析仪鉴定 Chi3l3 与 IL-13 之间的关系。

结果

我们分析了广州管圆线虫感染小鼠脑中偏斜的细胞因子模式，发现 Chi3l3 是一个重要的分子，在感染过程中急剧增加。炎症性巨噬细胞（Chi3l3 的主要来源）的百分比也增加，与脑中嗜酸性粒细胞的百分比一致。网络分析和数学建模预测 Chi3l3 与 IL-13 之间存在功能关联。进一步的实验验证了广州管圆线虫的可溶性抗原通过加剧 IL-13 和 Chi3l3 之间的正反馈环，诱导脑嗜酸性粒细胞性脑膜炎。

结论

我们提供了支持巨噬细胞衍生的 Chi3l3 分子在广州管圆线虫感染中起关键作用的证据，该分子通过 IL-13 介导的正反馈环加剧广州管圆线虫引起的嗜酸性粒细胞性脑膜炎。这些报道的结果为广州管圆线虫病发病机制的进一步研究奠定了基础，并暗示针对几丁质酶和几丁质酶样蛋白可能在广州管圆线虫引起的嗜酸性粒细胞性脑膜炎的临床治疗中具有益处。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/125a/5796390/f5e8dcb84741/12974_2018_1071_Fig1_HTML.jpg

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Chi3l3：广州血管圆线虫性脑膜炎嗜酸性粒细胞浸润的关键调控者

Chi3l3: a potential key orchestrator of eosinophil recruitment in meningitis induced by Angiostrongylus cantonensis.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

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