Abstract:Objective To research the relationship between the expression of brain amyloid beta (Aβ) protein along with neural behavior in rats with hypercholesterolemia level, in order to clarify the preventive effect of simvastatin on Alzheimer's disease. Methods The 32 Wistar rats were divided into normal group and high cholesterol group according to random number table, with 16 rats in each group. After two weeks, the rats in the normal group were randomly divided into normal drug group and normal placebo group, with 8 rats in each group; and the rats in the high cholesterol group were randomly divided into high fat drug group and high fat placebo group, with 8 rats in each group. And then simvastatin were filled into the stomach of the 16 drug group rats, the same volume placebo (distilled water) were filled into the stomach of placebo group. Immunohistochemical method was used to determine the expression of Aβ protein in brain, Morris water maze was used to test the cognitive and memory abilities in rats. Results Aβ1-42 protein expression of the prefrontal cortex in the high fat drug group was less than that of high fat placebo group (P < 0.05); and there was no significant difference in the high fat drug group, normal placebo group and normal drug group (P > 0.05). In the high fat drug group, the escape latency was decreased than that of high fat placebo group (P < 0.05), times of crossing platform was increased (P < 0.05); and there was no significant difference in the high fat drug group, normal placebo group and normal drug group (P > 0.05). Conclusion Simvastatin has some effects on the expression of Aβ1-42 protein in prefrontal cortex of hypercholesterolemic rats, and accompanied by neurobehavioral changes in rats.
梁倩1 唐伟2 刘文博1 王威1. 大鼠脑β-淀粉样蛋白表达及神经行为学与高胆固醇水平的关系[J]. 中国医药导报, 2017, 14(16): 24-27.
LIANG Qian1 TANG Wei2 LIU Wenbo1 WANG Wei1. The relationship between the expression of brain amyloid beta protein along with neural behavior in rats with hypercholesterolemia level. 中国医药导报, 2017, 14(16): 24-27.
[1] Gustafson DR,Clare MM,Scarmeas N,et al. New perspectives on Alzheimer′s disease and nutrition [J]. J Alzheimers Dis,2015,46(4):1111-1127.
[2] Haight TJ,Bryan RN,Erus G,et al. Vascular risk factors,cerebrovascular reactivity,and the default-mode brain network [J]. Neuroimage,2015,115(4):7-16.
[3] Leonova EI,Galzitskaya OV. Role of syndecans in lipid metabolism and human diseases [J]. Adv Exp Med Biol,2015,885(10):241-258.
[4] Hashimoto M,Hossain S,Katakura M,et al. The binding of Aβ1-42 to lipid rafts of RBC is enhanced by dietary docosahexaenoic acid in rats:implicates to Alzheimer′s disease [J]. Biochim Biophys Acta,2015,848(6):1402-1409.
[5] Nina E,Ganesh M,Dennis J,et al. Cholesterol level and statin use in alzheimer disease [J]. Arch Neurol,2011,68(11):1385-1392.
[6] Liang T,Li R,Cheng O. Statins for treating Alzheimer′s disease:truly ineffective?[J]. Eur Neurol,2015,73(5-6):360-366.
[7] Peters C,Espinoza MP,Gallegos S,et al. Alzheimer′s Aβ interacts with cellular prion protein inducing neuronal membrane damage and synaptotoxicity [J]. Neurobiol Aging,2015,36(3):1369-1377.
[8] Ahmadian-Attari MM,Ahmadiani A,Kamalinejad M,et al. Treatment of Alzheimer′s disease in Iranian traditional medicine [J]. Iran Red Crescent Med J,2015,17(1):52-59.
[9] Lim AS,Kowgier M,Yu L,et al. Sleep fragmentation and the risk of incident Alzheimer′s disease and cognitive decline in older persons [J]. Sleep,2013,36(7):1027.
[10] Fellows K,Uher T,Browne RW,et al. Protective associations of HDL with blood-brain barrier injury in multiple sclerosis patients [J]. J Lip Res,2015,56(10):2010-2018.
[11] Kuo PH,Lin CI,Chen YH,et al. A high-cholesterol diet enriched with polyphenols from oriental plums(prunus salicina)improves cognitive function and lowers brain cholesterol levels and neurodegenerative-related protein expression in mice [J]. Br J Nutr,2015,113(10):1550-1557.
[12] Sachdeva AK,Chopra K. Lycopene abrogates Aβ(1-42)-mediated neuroinflammatory cascade in an experimental model of Alzheimer′s disease [J]. J Nutr Biochem,2015, 26(7):736-744.
[13] Kumar A,Seghal N,Naidu PS,et al. Colchicines-induced neurotoxicity as an animal model of sporadic dementia of Alzheimer′s type [J]. Pharmacol Rep,2007,59(3):274-283.
[14] Chen X,Hui L,Geiger JD. Role of LDL cholesterol and endolysosomes in amyloidogenesis and Alzheimer′s disease [J]. J Neurol Neurophysiol,2014,5(5):172-187.
[15] Gupta A,Iadecola C. Impaired Aβ clearance:a potential link between atherosclerosis and Alzheimer′s Disease [J]. Front Aging Neurosc,2015,7(13):115.
[16] Orr ME,Salinas A,Buffenstein R,et al. Mammalian target of rapamycin hyperactivity mediates the detrimental effects of a high sucrose diet on Alzheimer′s disease pathology [J]. Neurobiol Aging,2014,35(6):1233-1242.
[17] Moreira PI. High-sugar diets,type 2 diabetes and Alzheimer′s disease [J]. Curr Opin Clin Nutr Metab Care,2013,16(4):440-445.
[18] Maesako M,Uemura K,Kubota M,et al. Exercise is more effective than diet control in preventing high fat diet-induced β-amyloid deposition and memory deficit in amyloid precursor protein transgenic mice [J]. J Biol Chem,2012, 287(27):23024-23033.
[19] Kristensen ML,Christensen PM,Hallas J,et al. The effect of statins on average survival in randomised trials,an analysis of end point postponement [J]. BMJ Open,2015,5(9):118-136.
[20] Li L,Zhang M,Su F,et al. Combination therapy analysis of ezetimibe and statins in Chinese patients with acute coronary syndrome and type 2 diabetes [J]. Lipids Health Dis,2015,14(1):10-11.
[21] Galeano P,Martino Adami PV,Do Carmo S,et al. Longitudinal analysis of the behavioral phenotype in a novel transgenic rat model of early stages of Alzheimer′s disease [J]. Front Behav Neurosci,2014,8(9):321-336.
2017, Vol. 14 
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