Department of Environmental and Occupational Health Sciences, School of Public Health, University of Washington, Seattle, WA 98105, USA.
Int J Mol Sci. 2023 May 23;24(11):9118. doi: 10.3390/ijms24119118.
The apolipoprotein E (ApoE) gene is a genetic risk factor for late-onset Alzheimer's disease, in which ε4 allele carriers have increased risk compared to the common ε3 carriers. Cadmium (Cd) is a toxic heavy metal and a potential neurotoxicant. We previously reported a gene-environment interaction (GxE) effect between ApoE4 and Cd that accelerates or increases the severity of the cognitive decline in ApoE4-knockin (ApoE4-KI) mice exposed to 0.6 mg/L CdCl through drinking water compared to control ApoE3-KI mice. However, the mechanisms underlying this GxE effect are not yet defined. Because Cd impairs adult neurogenesis, we investigated whether genetic and conditional stimulation of adult neurogenesis can functionally rescue Cd-induced cognitive impairment in ApoE4-KI mice. We crossed either ApoE4-KI or ApoE3-KI to an inducible Cre mouse strain, Nestin-CreER:caMEK5-eGFP (designated as caMEK5), to generate ApoE4-KI:caMEK5 and ApoE3-KI:caMEK5. Tamoxifen administration in these mice genetically and conditionally induces the expression of caMEK5 in adult neural stem/progenitor cells, enabling the stimulation of adult neurogenesis in the brain. Male ApoE4-KI:caMEK5 and ApoE3-KI:caMEK5 mice were exposed to 0.6 mg/L CdCl throughout the experiment, and tamoxifen was administered once Cd-induced impairment in spatial working memory was consistently observed. Cd exposure impaired spatial working memory earlier in ApoE4-KI:caMEK5 than in ApoE3-KI:caMEK5 mice. In both strains, these deficits were rescued after tamoxifen treatment. Consistent with these behavioral findings, tamoxifen treatment enhanced adult neurogenesis by increasing the morphological complexity of adult-born immature neurons. These results provide evidence for a direct link between impaired spatial memory and adult neurogenesis in this GxE model.
载脂蛋白 E(ApoE)基因是晚发性阿尔茨海默病的遗传风险因素,其中 ε4 等位基因携带者的风险比常见的 ε3 携带者增加。镉(Cd)是一种有毒重金属,也是一种潜在的神经毒物。我们之前报道了 ApoE4 和 Cd 之间的基因-环境相互作用(GxE)效应,通过饮用水暴露于 0.6mg/L CdCl 的 ApoE4 敲入(ApoE4-KI)小鼠与对照 ApoE3-KI 小鼠相比,加速或增加了认知能力下降的严重程度。然而,这种 GxE 效应的机制尚不清楚。由于 Cd 会损害成年神经发生,我们研究了遗传和条件性刺激成年神经发生是否可以在功能上挽救 ApoE4-KI 小鼠中 Cd 诱导的认知障碍。我们将 ApoE4-KI 或 ApoE3-KI 与诱导型 Cre 小鼠品系 Nestin-CreER:caMEK5-eGFP(命名为 caMEK5)杂交,生成 ApoE4-KI:caMEK5 和 ApoE3-KI:caMEK5。在这些小鼠中,给予他莫昔芬可在成年神经干细胞/祖细胞中遗传和条件性地诱导 caMEK5 的表达,从而刺激大脑中的成年神经发生。雄性 ApoE4-KI:caMEK5 和 ApoE3-KI:caMEK5 小鼠在整个实验过程中暴露于 0.6mg/L CdCl,并且在观察到空间工作记忆的 Cd 诱导损伤后,单次给予他莫昔芬。Cd 暴露使 ApoE4-KI:caMEK5 小鼠的空间工作记忆受损早于 ApoE3-KI:caMEK5 小鼠。在两种品系中,这些缺陷在他莫昔芬治疗后都得到了挽救。与这些行为发现一致,他莫昔芬治疗通过增加成年新生不成熟神经元的形态复杂性来增强成年神经发生。这些结果为这种 GxE 模型中空间记忆受损与成年神经发生之间的直接联系提供了证据。
