[Effect of chronic enhanced external counterpulastion on gene expression profiles of arterial endothelial cells of pigs fed with high-cholesterol diet].

OBJECTIVE: To investigate the effect of chronic enhanced external counterpulastion (EECP) on gene expression profiles of arterial endothelial cells (ECs) of pigs fed with high-cholesterol diet. METHODS: Eight male pigs were fed with high-cholesterol diet for 12 weeks to induce arteriosclerosis and subjected to EECP for accumulative 36 h (2 h every other day for 18 sessions). Another 8 pigs on cholesterol-enriched diet and 6 normally fed pigs served as the arteriosclerosis model group and normal control group, respectively, and the high-cholesterol diet was maintained until the end of EECP treatment. The coronary artery was then isolated for transmission electro microscopy, and the abdominal aorta was observed using Sudan III staining. The gene expression profiles in ECs from the thoracic aorta using cDNA microarrays. RESULTS: Macrophages and foam cells were detected beneath the ECs in the coronary artery of pigs in the model group, but not in the other two groups. The ratios of Sudan III-positive area in the celiac aorta were significantly lower in normal control and EECP groups than in the model control group (P<0.05). Compared with the normal control group, the gene expressions of integrins-beta1 and CTGF were up-regulated in the model group. Compared with the model group, the expressions of integrins-beta1, CTGF and VCAM-1 were down-regulated and eNOS up-regulated in EECP group. CONCLUSION: Chronic EECP may reduce endothelial injury, down-regulate the gene expression level of integrin-beta1, CTGF and VCAM-1, lower cholesterol uptake and attenuate arterial endothelial inflammation to protect the pigs fed with high-cholesterol diet from arteriosclerosis.

[Establishment of a pig model of chronic ally enhanced external counterpulsation].

OBJECTIVE: To establish a pig model of chronic external counterpulsation. METHODS: Twelve pigs were anaesthetized with sodium pentobarbital (< or =30 mg/kg.b.w.) and 846 mixture (< or =0.1 ml/kg.b.w.) and counterpulsed in a lateral position for 2 h every two days (totally 36 h) with 0.025 to 0.04 MPa/cm(2) pressure. RESULTS: External counterpulsation was successfully completed in all the animals. Combined administration of sodium pentobarbital and 846 mixture resulted in good anesthetic effect with reduced anesthetic dosage and minimal side effect on the viscera (the liver, kidney and heart, etc). CONCLUSION: The pig model of chronic external counterpulsation has been successfully established. Combined use of sodium pentobarbital and 846 mixture is recommended for chronic external counterpulsation.

[Effect of chronic enhanced external counterpulsation on arterial endothelial cells of porcine with hypercholesteremia].

OBJECTIVE: To verify whether chronic enhanced external counterpulsation (EECP) may repair artery endothelial cells (ECs) damage resulted from hypercholesteremia in pigs. METHODS: EECP was performed for 36 hours in pigs with hypercholesteremia and the left descending artery (LDA) was isolated for scanning electron microscopy (SEM). The ECs were collected from the thoracic aorta and analyzed by proteomic technique. RESULTS: The ECs of hypercholesteremia pigs showed irregular arrangement with obvious desquamation of coronary ECs and formation of atherosclerotic plaque, and these lesions were milder in EECP-treated pigs. Six over-expressed proteins were detected in the endothelial cells in EECP-treated pigs in comparison with those of the hypercholesteremia pigs. CONCLUSION: Chronic EECP helps restore cell morphology and repair functional damage of ECs resulted from hypercholesteremia by regulating endothelial protein expressions, and consequently improves cell adhesion and intracellular metabolism and reduces EC apoptosis.