Percy Maire, Moalem Sharon, Garcia Angeles, Somerville Martin J, Hicks Mark, Andrews David, Azad Azar, Schwarz Peter, Beheshti Zavareh Reza, Birkan Rivka, Choo Clara, Chow Vinca, Dhaliwal Sandeep, Duda Victoria, Kupferschmidt Anthony L, Lam Kyla, Lightman Deborah, Machalek Karolina, Mar Wanna, Nguyen Frank, Rytwinski Piotr J, Svara Erin, Tran Maithy, Wheeler Kathleen, Yeung Lisa, Zanibbi Katherine, Zener Rebecca, Ziraldo Melissa, Freedman Morris
Surrey Place Centre and Departments of Physiology and Obstetrics & Gynaecology, University of Toronto, Toronto, ON, Canada.
J Alzheimers Dis. 2008 May;14(1):69-84. doi: 10.3233/jad-2008-14107.
Dysregulation of iron homeostasis is implicated in Alzheimer's disease (AD). In this pilot study, common variants of the apolipoprotein E (APOE) and HFE genes resulting in the iron overload disorder of hereditary hemochromatosis (C282Y, H63D and S65C) were evaluated as factors in sporadic AD in an Ontario sample in which folic acid fortification has been mandatory since 1998. Laboratory studies also were done to search for genetic effects on blood markers of iron status, red cell folates and serum B12. Participants included 58 healthy volunteers (25 males, 33 females) and 54 patients with probable AD (20 males, 34 females). Statistical analyses were interpreted at the 95% confidence level. Contingency table and odds ratio analyses supported the hypothesis that in females of the given age range, E4 significantly predisposed to AD in the presence but not absence of H63D. In males, E4 significantly predisposed to AD in the absence of H63D, and H63D in the absence of E4 appeared protective against AD. Among E4+ AD patients, H63D was associated with significant lowering of red cell folate concentration, possibly as the result of excessive oxidative stress. However, folate levels in the lowest population quartile did not affect the risk of AD. A model is presented to explain the experimental findings.
铁稳态失调与阿尔茨海默病(AD)有关。在这项初步研究中,对导致遗传性血色素沉着症铁过载疾病的载脂蛋白E(APOE)和HFE基因的常见变异(C282Y、H63D和S65C)进行了评估,将其作为安大略省一个样本中散发性AD的影响因素,自1998年以来该省强制实行叶酸强化。还进行了实验室研究,以寻找基因对铁状态血液标志物、红细胞叶酸和血清B12的影响。参与者包括58名健康志愿者(25名男性,33名女性)和54名可能患有AD的患者(20名男性,34名女性)。统计分析在95%置信水平下进行解释。列联表和比值比分析支持了以下假设:在给定年龄范围内的女性中,E4在存在而非不存在H63D的情况下显著易患AD。在男性中,E4在不存在H63D时显著易患AD,而在不存在E4时H63D似乎对AD有保护作用。在携带E4的AD患者中,H63D与红细胞叶酸浓度显著降低有关,这可能是过度氧化应激的结果。然而,最低人群四分位数中的叶酸水平并未影响AD风险。本文提出了一个模型来解释实验结果。
