Tissue metabolism network research method for toxic effect of atmospheric particulate matters
A technology of atmospheric particulate matter and toxic effects, applied in medical science, measuring devices, instruments, etc., can solve problems such as damage to organisms, and achieve the effect of improving accuracy
Inactive Publication Date: 2019-10-15
INST OF URBAN ENVIRONMENT CHINESE ACAD OF SCI +1
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Problems solved by technology
Although some studies have used systems biology methods such as metabolomics, proteomics, and transcriptomics to analyze the toxic effects of atmospheric particulate matter exposure on a single target organ, atmospheric particulate matter exposure often causes overall damage to the organism, and there is no relevant research. Metabolomics model assesses key marker metabolites for systemic toxic effects from atmospheric particle exposure
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Embodiment 1
[0038] The design of this example is based on the evaluation of the systemic toxicity effect and the screening of key metabolic markers under the exposure of PM2.5 in the real environment of mice. The specific exposure steps are as follows:
[0039] 1. Exposure experiment of mice in actual environment PM2.5
[0040] Atmospheric fine particle sampler is used to trap PM2.5 particles on the filter membrane, and the obtained particle samples and buffer solution (phosphate buffer or saline) are ultrasonically prepared into a suspension with a certain concentration for tracheal instillation, PM2 .5 The concentration of the suspension is converted according to the Chinese air quality standard and the average body weight of the mice. Mice were exposed to atmospheric particulate matter by tracheal instillation after a period of adaptive feeding.
[0041] 2. Sample pretreatment of mouse tissue metabolome
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The invention provides a tissue metabolism network research method for a toxic effect of atmospheric particulate matters, wherein the method includes the following steps: S1, collecting atmospheric particulate matters in a research area and preparing an atmospheric particulate matter suspension; S2, carrying out intratracheal instillation on the atmospheric particulate matter suspension into a tested animal body to simulate the exposure of a human body to the atmospheric particulate matters; S3, after the end of the experiment period, collecting the liver, lung and serum of the tested animal;S4, carrying out metabolome analysis of the liver, lung and serum through a liquid chromatography-mass spectrometry combined platform, and determining labeled metabolites of the liver, lung and serumrespectively; and S5, determining key metabolic network through the correlation analysis and the network analysis, and determining key labeled metabolites by the network node centrality evaluation. With use of network analysis, key metabolic markers of multiple tissues are determined through a network model, a method is provided for identifying key marker metabolites in multiple tissue metabolismdata under different phenotypes, and the accuracy of identification of the metabolic markers is improved.
Description
technical field [0001] The invention relates to the field of atmospheric particle toxicity research, in particular to a systemic toxicity metabolomics evaluation model of atmospheric particles. Background technique [0002] With the continuous advancement of industrialization, atmospheric particulate matter (especially PM 2.5) pollution has become an environmental issue that has attracted much attention. In China, with the development of urbanization, there are more and more major pollution sources of atmospheric particulate matter in cities, such as vehicle exhaust, coal-fired boiler heating, thermal power generation, etc., affecting the health of urban residents. Relevant epidemiological studies have shown that exposure to atmospheric particulate matter (especially PM 2.5) is associated with abnormal lung function, cardiovascular system disorders, and inflammatory states, and diseases related to atmospheric particulate matter pollution include atherosclerosis, endothelial ...
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IPC IPC(8): A61D7/00G01N30/02
CPCA61D7/00G01N30/02
Inventor 申河清丁蕊张洁吴衍
Owner INST OF URBAN ENVIRONMENT CHINESE ACAD OF SCI
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