Effect of noise on morphological structure and functions of rat liver

Ningning LI; Yanan Cui; Xiaojun She; Bo Cui; Shanfa YU

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Effect of noise on morphological structure and functions of rat liver

VernacularTitle:噪声对大鼠肝脏形态结构和功能的影响
Author: Ningning LI ¹ ; Yanan CUI ² ; Xiaojun SHE ³ ; Bo CUI ³ ; Shanfa YU ^{2
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Author Information

1. Department of Scientific Research and Foreign Affairs, Henan Medical College, Zhengzhou, Henan 451191, China.
2. College of Public Health, Zhengzhou University, Zhengzhou, Henan 450001, China.
3. Institute of Environmental and Operational Medicine, Academy of Military Medical Science, Academy of Military Science, Tianjin 300041, China.
4. Department of Scientific Research and Foreign Affairs, Henan Medical College, Zhengzhou, Henan 451191, China
Publication Type:Experiment
Keywords: noise exposure; liver injury; metabolomics; biomarker; ultra-high-pressure liquid chromatography-tandem quadrupole time-of-flight mass spectrometry; bile acid
From: Journal of Environmental and Occupational Medicine 2022;39(4):439-445
CountryChina
Language:Chinese
Abstract: Background Noise can cause not only auditory system injury, but also liver damage. However, the biomarkers and pathological mechanism of noise-induced liver injury are not clear yet. Objective To observe the effect of noise on the morphological structure and functions of rat liver. Methods A total of 30 Wistar rats were randomly divided into a normal control group, a low noise exposure group [(95 dB sound pressure level (SPL)], and a high noise exposure group (105 dB SPL). After 30 days of noise exposure, blood was collected, and livers were harvested and fixed. The pathological changes of livers were observed. The levels of biochemical indicators of liver function, blood glucose, and blood lipid were measured. Serum metabolites were detected by ultra-high-pressure liquid chromatography-tandem quadrupole time-of-flight mass spectrometry (UPLC/Q-TOF-MS). Differential metabolite markers and metabolic pathways were identified. Results Compared with the control group, the body weight gain decreased in the low noise group and the high noise group after noise exposure (P<0.001, P<0.05). The pathological results showed that noise caused the rat livers’ morphological and structural damage at various degrees, and damage of the high noise exposure group was more serious. Compared with the control group, the serum levels of aspartate aminotransferase, albumin, and glycosylated serum protein in the low noise exposure group were increased (P<0.05), but the total bile acid level was decreased (P<0.05). The serum levels of alanine aminotransferase, aspartate aminotransferase, albumin, triglyceride, low density lipoprotein, and glycosylated serum protein in the high noise group exposure were increased (P<0.05), but the glucose level was decreased (P<0.05). In the serum metabolomics analysis, 11 differential metabolites were screened out in the low noise exposure group, which were mainly enriched in 3 pathways (thiamine metabolism, primary bile acid biosynthesis, and bile secretion) related to liver metabolism. Four differential metabolites were screened out in the high exposure noise group, which were mainly enriched in four significantly different metabolic pathways (insulin signaling pathway, non-alcoholic fatty liver disease, bile secretion, and insulin secretion). All the metabolic pathways involved in bile acid secretion and metabolism. Conclusion Nosie exposure can not only damage the liver structure of rats, but also affects the metabolism functions of liver. The mechanism may be related to bile acid secretion metabolic pathway.