The influences on the structure of rats′aorta with long-term high fat forages diet
- VernacularTitle:长期高脂饲料喂养对大鼠主动脉结构的影响
- Author:
Hongjun LI
;
Yuting YANG
;
Fulian GAO
;
Yongli LI
;
Jinsheng ZHANG
- Publication Type:Journal Article
- Keywords:
rat;
hyperlipidemia;
aorta;
structure;
endothelial injury
- From:
Chinese Pharmacological Bulletin
2003;0(10):-
- CountryChina
- Language:Chinese
-
Abstract:
Aim To investigate the influences on the aortal structure of rats with long-term high fat forages diet.Methods 14 SD rats were divided into two groups:the control group and the test group. The test rats were fed with high fat forages.12 weeks later, the aortas of the rats were observed with a light microscope, transmission electron microscope(TEM) and scanning electron microscope (SEM).Results In the test group, the aortic tunica intima thickening, endotheliocyte injury and monocyte adhesion were found with a light microscope; the elastic lamina being broken and the smooth muscle cells proliferated. Under TEM, the endothelial cell membrane of the aorta in the test rats was destroyed and appeared to be worm-eclipsed shape.Mitochondria exhibited swelling,vacuole degeneration and its cristae was dissolved, broken or some disappeared.Rough endoplasmic reticula (RER) expanded. The endothelial cell spaces were enlarged and the cell junctions deformed. Monocytes adhering to the endothelial cell stretched out pseudopodia and intruded into the endothelial crevice and the subendothelial layer. Some basement membranes completely sloughed following with endothelial cell. ERE and ribosomes increased in smooth muscle cells. SEM observation showed that the endothelial cells became swelling and the surface of endothelial cell was worm-eclipsed or crater shape. There were deeper crevices between endothelial cells.Conclusions Long-term high fat forages diet can induce injury of the endothelium and elastic lamina, adhesion of the monocytes and its intrusion into endothelial layer and subendothelial layer, proliferation of the subendothelial layer and smooth muscle in the aorta of rats.
