A suitable silicosis mouse model was constructed by repeated inhalation of silica dust via nose

A suitable silicosis mouse model was constructed by repeated inhalation of silica dust via nose

•A silicosis mouse model was established by repeated inhalation of silica dust via the nose.•Silica-induced inflammatory response drives silicon transport.•The modified pulmonary fibrosis grading in mice can be provided for judging silicosis progression.•μCT image analysis can provide the distributi...

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Veröffentlicht in:Toxicology letters 2021-12, Vol.353, p.1-12
Hauptverfasser: Li, Bing, Mu, Min, Sun, Qixian, Cao, Hangbing, Liu, Qiang, Liu, Jiaxin, Zhang, Jinfeng, Xu, Keyi, Hu, Dong, Tao, Xinrong, Wang, Jianhua
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Sprache:eng
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Administration, Inhalation
Animals
Chronic silica-induced inflammation
Disease Models, Animal
Dust
Inhalation exposure
Instillation by repeated-nasal drop
Lung fibrosis
Male
Mice
Mice, Inbred C57BL
Motor Activity
Pulmonary Fibrosis - chemically induced
Pulmonary Fibrosis - pathology
Silicon Dioxide - toxicity
Silicosis - pathology
Silicosis mouse model
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container_issue
container_start_page 1
container_title Toxicology letters
container_volume 353
creator Li, Bing
Mu, Min
Sun, Qixian
Cao, Hangbing
Liu, Qiang
Liu, Jiaxin
Zhang, Jinfeng
Xu, Keyi
Hu, Dong
Tao, Xinrong
Wang, Jianhua
description •A silicosis mouse model was established by repeated inhalation of silica dust via the nose.•Silica-induced inflammatory response drives silicon transport.•The modified pulmonary fibrosis grading in mice can be provided for judging silicosis progression.•μCT image analysis can provide the distribution of silicon nodules in silica-exposed mouse lungs. Silicosis as the serious occupational disease is highly necessary to construct a suitable mouse model for disclosing mechanism of occurrence and development in this disease. Here, the volume-effect relationship and volume-based survival curves in mice who inhaled silica suspension intranasally were analyzed. Notable, the optimal volume 80 μl repeated-inhalation by nose to silica suspension in the inbred mouse C57BL/6 J with the highest susceptibility to silicosis led to a great entrance into the lung and a high survival rate after instillation. After repeated-exposure to 20 mg/mL, 80 μl silica for 16 days and then fed without silica exposure until 31 days, weight of mice showed a trend of first decrease and then recover. Moreover, the degree of pulmonary inflammation and fibrosis in mice were analyzed by pathological and immunohistochemistry staining. Transforming growth factor-beta (TGF-β), smooth muscle alpha-actin (α-SMA) and collagen type-I (collagen I, Col-I) were significantly increased in the silica-exposed mouse lung at post-exposure day 16 compared with the controls. Sirius red stain and Micro-CT analysis showed that lung fibrosis formed at post-exposure day 31. This study highlights the critical importance of perfusion volume and repeated nasal drops in inducing inflammatory response and pulmonary fibrosis in silicosis.
doi_str_mv 10.1016/j.toxlet.2021.09.014
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Silicosis as the serious occupational disease is highly necessary to construct a suitable mouse model for disclosing mechanism of occurrence and development in this disease. Here, the volume-effect relationship and volume-based survival curves in mice who inhaled silica suspension intranasally were analyzed. Notable, the optimal volume 80 μl repeated-inhalation by nose to silica suspension in the inbred mouse C57BL/6 J with the highest susceptibility to silicosis led to a great entrance into the lung and a high survival rate after instillation. After repeated-exposure to 20 mg/mL, 80 μl silica for 16 days and then fed without silica exposure until 31 days, weight of mice showed a trend of first decrease and then recover. Moreover, the degree of pulmonary inflammation and fibrosis in mice were analyzed by pathological and immunohistochemistry staining. Transforming growth factor-beta (TGF-β), smooth muscle alpha-actin (α-SMA) and collagen type-I (collagen I, Col-I) were significantly increased in the silica-exposed mouse lung at post-exposure day 16 compared with the controls. Sirius red stain and Micro-CT analysis showed that lung fibrosis formed at post-exposure day 31. 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Silicosis as the serious occupational disease is highly necessary to construct a suitable mouse model for disclosing mechanism of occurrence and development in this disease. Here, the volume-effect relationship and volume-based survival curves in mice who inhaled silica suspension intranasally were analyzed. Notable, the optimal volume 80 μl repeated-inhalation by nose to silica suspension in the inbred mouse C57BL/6 J with the highest susceptibility to silicosis led to a great entrance into the lung and a high survival rate after instillation. After repeated-exposure to 20 mg/mL, 80 μl silica for 16 days and then fed without silica exposure until 31 days, weight of mice showed a trend of first decrease and then recover. Moreover, the degree of pulmonary inflammation and fibrosis in mice were analyzed by pathological and immunohistochemistry staining. Transforming growth factor-beta (TGF-β), smooth muscle alpha-actin (α-SMA) and collagen type-I (collagen I, Col-I) were significantly increased in the silica-exposed mouse lung at post-exposure day 16 compared with the controls. Sirius red stain and Micro-CT analysis showed that lung fibrosis formed at post-exposure day 31. 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subjects Administration, Inhalation
Animals
Chronic silica-induced inflammation
Disease Models, Animal
Dust
Inhalation exposure
Instillation by repeated-nasal drop
Lung fibrosis
Male
Mice
Mice, Inbred C57BL
Motor Activity
Pulmonary Fibrosis - chemically induced
Pulmonary Fibrosis - pathology
Silicon Dioxide - toxicity
Silicosis - pathology
Silicosis mouse model
title A suitable silicosis mouse model was constructed by repeated inhalation of silica dust via nose
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