Identification of Serum-Based Metabolic Feature and Characteristic Metabolites in Paraquat Intoxicated Mouse Models.

Youjia Yu,Li Hu,Huijie Huang,Zheng Li,Jingjing Ding,Kai Li,Yanfang Yu,Ding Li,Hanting Fan,Chunyan Chu,Zhengsheng Mao,Jiaqian Lou,Peng Chen,Zishan Gao,Feng Chen,Chuwei Deng

doi:10.3389/fphys.2020.00065

Youjia Yu, Li Hu + Show 14 more

Open Access

https://doi.org/10.3389/fphys.2020.00065

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Abstract

Paraquat (PQ) is a widely used herbicide which can cause high mortality to humans. However, relatively few studies focus on metabolic feature of PQ intoxication for investigating the underlying mechanisms. Here we performed non-targeted metabolomics profiling of serum samples from acute and chronic PQ intoxicated mouse models by gas chromatography time-of-flight mass spectrometry (GC–TOF/MS) to identify metabolic feature and characteristic metabolites of acute and chronic PQ intoxication. Results showed that 3-indolepropionic acid (IPA) and pathway of glycine, serine, and threonine metabolism were significantly altered after acute PQ intoxication; 2-hydroxybutyric acid and the ratio of L-serine/glycine were of significance between acute and chronic PQ intoxication. Then targeted metabolomics profiling was conducted by liquid chromatography–mass spectrometry (LC–MS) analysis to confirm the changes of IPA after acute PQ intoxication. Moreover, IPA-producing gut bacteria in feces were quantified by qRT-PCR to explain the varied IPA serum concentration. Clostridium botulinum and Peptostreptococcus anaerobius were significantly suppressed after acute PQ intoxication. The data suggested that PQ caused oxidative damage partially through suppression of anti-oxidative metabolite producing gut bacteria. In conclusion, we identified characteristic metabolites and pathway of acute and chronic PQ intoxication which could be potential biomarkers and therapeutic targets.

Highlights

Paraquat (PQ, N,N -dimethyl-4,4 -bipyridinium dichloride) is the most widely used herbicide for its ability in rapid contact-dependent killing of broad leaf weeds and plants (Suntres, 2002)
The overview of global metabolic profiles according to the quantitative results for the metabolites in the mice serum samples, as revealed by principal component analysis (PCA) scores plots (Figure 1B), showed obvious dissimilarities between the PQ3d group and the control group (Ctrl) group or the PQ30d group
The results demonstrated that indolepropionic acid (IPA) could be taken as a potential biomarker for diagnosing acute PQ intoxication, and 2-hydroxybutyric acid and the ratio of L-serine/glycine could be potential biomarkers for differentiating acute and chronic PQ intoxication

Summary

Introduction

Paraquat (PQ, N,N -dimethyl-4,4 -bipyridinium dichloride) is the most widely used herbicide for its ability in rapid contact-dependent killing of broad leaf weeds and plants (Suntres, 2002). Acute intoxication caused by PQ ingestion leads to multiple organ damage especially in the lungs, which is characterized by severe pulmonary inflammation, edema, and epithelial cell destruction. Progressive pulmonary fibrosis is the most serious consequence caused by PQ, and is often associated with high mortality due to the lack of effective therapeutic strategy (Suntres, 2002; Hu et al, 2016). PQ intoxication is easy to be overlooked by physicians due to the similarities of symptoms with other diseases, which leads to delayed diagnosis and therapy. It is of great importance and urgency to identify diagnostic biomarkers and develop effective therapeutic approaches for PQ intoxication

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