壳聚糖和运动联合治疗可改善体内高脂血症模型中的脂质分布、脂肪组织和肝脏变化

J. P. G. Passos, C. R. Melo, F. M. Carvalho, P. Severino, J. Cardoso, J.L.S. Cunha, A. Cano, E. Souto, R. D. de Albuquerque-Júnior
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引用次数: 1

摘要

肥胖是几个国家普遍存在的公共卫生问题,并与几种病理性疾病密切相关,包括糖尿病、高血压、心血管疾病和血脂异常增加。血脂异常是一种无症状的疾病,其特征是低密度脂蛋白(LDL)水平高,高密度脂蛋白水平低,导致缺血性心脏病的风险增加。由于脂质紊乱与生活方式和饮食密切相关,在这项工作中,我们评估了壳聚糖和运动对改善高脂饮食喂养大鼠脂质状况的影响。动物口服基于1mL/100g液态黄油的高热量饮食,以诱导高脂血症状态达8周(如体重和Lee肥胖指数测量所示)。8周后,将40只大鼠分为5组(n=8),并适应不同的治疗策略:体育锻炼和/或用壳聚糖(浓度为2%)治疗。高脂血症组表现出葡萄糖和肝酶水平的改变,即天冬氨酸转氨酶(AST)和丙氨酸转氨酶(ALT)。用壳聚糖治疗8周后,动物的体重显著降低,达到低于对照组的值。与未治疗的大鼠相比,运动降低了所有治疗组的Lee肥胖指数值。研究结束时,总胆固醇、甘油三酯、LDL和VLDL的浓度显著降低至健康阈值。高脂血症动物的肝实质在壳聚糖处理后恢复到正常形态;通过体育锻炼可以改善组织学特征(约20-30%的实质细胞)。总之,在啮齿类动物血脂异常模型中,与体育锻炼相关的壳聚糖口服给药具有降血脂作用,显示总胆固醇、甘油三酯、LDL-c、VLDL-c、葡萄糖和肝酶(AST和ALT)水平降低。我们的研究结果归因于壳聚糖给药和体育锻炼之间的协同作用,这有助于减少氧化应激。
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Combined Therapy of Chitosan and Exercise Improves the Lipid Profile, Adipose Tissue and Hepatic Alterations in an In Vivo Model of Induced-Hyperlipidemia
Obesity is a prevalent public health concern in several countries, and is closely associated with several pathological disorders, including diabetes, hypertension, cardiovascular diseases, and increased dyslipidemia. Dyslipidemia is an asymptomatic condition characterized by high levels of low-density lipoproteins (LDL) and low levels of high-density lipoproteins (HDL), leading to the increased risk of ischemic heart disease. As lipid disorders are strongly associated with lifestyle and diet, in this work we have evaluated the effect of associating chitosan and exercise on the improvement of the lipid profile of high-fat diet-fed rats. Animals were submitted orally to hypercaloric diets based on liquid butter at 1 mL/100 g to induce a hyperlipidemic state for 8 weeks (as shown by body weight and measures of the Lee obesity index). After 8 weeks, the 40 rats were separated into five groups (n = 8) and adapted to different treatment strategies: physical exercise and/or treatment with chitosan (at a concentration of 2%). The hyperlipidemic group exhibited altered levels of glucose and hepatic enzymes, i.e., aspartate aminotransferase (AST) and alanine aminotransferase (ALT). The treatment with chitosan over 8 weeks significantly reduced the bodyweight of the animals, reaching values lower than the control group. Exercise reduced the Lee obesity index values of all the treated groups compared to non-treated rats. The concentration of total cholesterol, triglycerides, LDL, and VLDL was significantly reduced at the end of the study to healthy thresholds. The hepatic parenchyma of hyperlipidemic animals was recovered to show normal morphology when treated with chitosan; improved histological features (ca. 20–30% of parenchymal cells) could be achieved with physical exercise. In conclusion, oral administration of chitosan associated with physical exercise had a hypolipidemic effect in a model of dyslipidemia in rodents, showing decreased levels of total cholesterol, triglycerides, LDL-c, VLDL-c, glucose, and liver enzymes (AST and ALT). Our results are attributed to the synergism between the administration of chitosan and physical exercise that helps to reduce oxidative stress.
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