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1.
Acta Laboratorium Animalis Scientia Sinica ; (6): 22-26,31, 2014.
Artículo en Chino | WPRIM | ID: wpr-600089

RESUMEN

Objective To compare the differences of lung pathological changes of acute lung injury in mice in-duced by lipopolysaccharide ( LPS) and graphite particles, and to explore the possible mechanisms of acute lung injury in-duced by fine particles of different origins.Methods 140 male specific-pathogen-free Kunming mice weighing 18-20 g were randomly divided into 7 experimental groups, in addition to the normal control group.The experimental groups were treated by intratracheal instillation of LPS solution or graphite powder suspension in different doses, respectively, to induce acute lung injury in the mice.The mortality of the mice was observed, and pathological changes of the lung tissues were ex-amined by light and transmission electron microscopy.Western blot was used to detect the protein expression of neutrophil elastase ( NE) in lung tissues , and real-time quantitative PCR was used to detect mRNA expression of monocyte chemotac-tic protein-1 ( MCP-1) in the lung tissue .Results Compared with the normal control group, some pathological changes were observed in the lung tissues of the groups L ( LPS) and G ( graphite) .There were numerous macrophages in the lung tissues in the group G mice, and exudate, mainly neutrophils, in the lung tissues of the group L.The NE protein expres-sion in the lung tissue was significantly higher than that of the normal control group ( P<0.05) , and there was also a sig-nificant difference between the groups L and G (P<0.05).The MCP-1 mRNA expression in lung tissues was higher in the control group (P<0.01), and there was also a significant difference between the groups L and G (P<0.01).Conclu-sions Diverse types of particulate matters induce different pathological changes in the lungs, therefore the mechanism may also be different in the inflammatory responses.It means that the lung injuries caused by fine particles of mixed composition may have complex mechanisms.

2.
Chinese Pharmacological Bulletin ; (12): 1600-1604, 2014.
Artículo en Chino | WPRIM | ID: wpr-460026

RESUMEN

Aim To investigate the effect of Jinlida on cholesterol-related genes in skeletal muscle in fat-in-duced insulin resistance ApoE-/ - mice. Methods Ten male C57 BL/6 J mice were selected as normal group ( NF );50 male ApoE-/ - mice with a high-fat feeding after 16 weeks ( HF) were divided into model group, rosiglitazone ( LGLT ) , Jinlida low dose group ( JLDL, 0. 95 g · kg-1 · d-1 ) , Jinlida medium dose group ( JLDM, 1. 9 g·kg-1 ·d-1 ) , Jinlida high dose group (JLDH, 3. 8 g·kg-1·d-1), which were per-formed intragastric administration for 8 weeks. Oil red O staining of mouse skeletal muscle was used for fat ac-cumulation. Insulin receptor ( INSR) , insulin receptor body substrate-1 ( IRS-1 ) , low-density lipoprotein re-ceptor ( LDLR ) , cholesterol sensor ( SCAP ) mRNA and protein expression in mouse skeletal muscle were measured by quantitative reverse transcription PCR ( RT-PCR ) and Western blot. Results Compared with NF group, fasting blood glucose ( FBG) , choles-terol ( TC ) , triglyceride ( TG ) and low density lipo-protein cholesterol ( LDL-C ) of HF mice were signifi-cantly elevated, while high-density lipoprotein ( HDL-C ) significantly decreased ( P < 0. 05 ) . Compared with HF group, Jinlida group could reduce to varying degrees FBG, TC, TG and LDL-C in mice, and in-crease HDL-C ( P <0. 05 ) . Jinlida could downgrade fasting serum insulin ( FINS ) level, and improve the insulin sensitive index ( ISI ) ( P < 0. 05 ) . Jinlida could obviously improve skeletal muscle fat accumula-tion of mice. Compared with NF group, skeletal mus-cle INSR, IRS-1, LDLR mRNA and protein levels of HF group were significantly decreased ( P <0. 05 ) , while SCAP mRNA and protein level increased signifi-cantly (P<0. 05). Compared with HF group, Jinlida could increase to varying degrees INSR, IRS-1, LDLR mRNA and protein levels ( P < 0. 05 ) , and lower SCAP mRNA and protein levels ( P<0. 05 ) . Conclu-sion Jinlida can alleviate fat-induced insulin resist-ance in ApoE-/ - mice through regulation of cholester-ol-related gene expression.

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