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低剂量甲基汞暴露后海马区神经干细胞凋亡导致持续性细胞丢失和青少年期记忆缺陷。

Neural stem cell apoptosis after low-methylmercury exposures in postnatal hippocampus produce persistent cell loss and adolescent memory deficits.

机构信息

Joint Graduate Program in Toxicology, Rutgers, The State University of New Jersey/Rutgers Graduate School of Biomedical Sciences, Piscataway, New Jersey; Department of Neuroscience and Cell Biology, Rutgers Robert Wood Johnson Medical School, Piscataway, New Jersey.

出版信息

Dev Neurobiol. 2013 Dec;73(12):936-49. doi: 10.1002/dneu.22119. Epub 2013 Sep 30.

DOI:10.1002/dneu.22119
PMID:23959606
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3874131/
Abstract

The developing brain is particularly sensitive to exposures to environmental contaminants. In contrast to the adult, the developing brain contains large numbers of dividing neuronal precursors, suggesting that they may be vulnerable targets. The postnatal day 7 (P7) rat hippocampus has populations of both mature neurons in the CA1-3 region as well as neural stem cells (NSC) in the dentate gyrus (DG) hilus, which actively produce new neurons that migrate to the granule cell layer (GCL). Using this well-characterized NSC population, we examined the impact of low levels of methylmercury (MeHg) on proliferation, neurogenesis, and subsequent adolescent learning and memory behavior. Assessing a range of exposures, we found that a single subcutaneous injection of 0.6 µg/g MeHg in P7 rats induced caspase activation in proliferating NSC of the hilus and GCL. This acute NSC death had lasting impact on the DG at P21, reducing cell numbers in the hilus by 22% and the GCL by 27%, as well as reductions in neural precursor proliferation by 25%. In contrast, non-proliferative CA1-3 pyramidal neuron cell number was unchanged. Furthermore, animals exposed to P7 MeHg exhibited an adolescent spatial memory deficit as assessed by Morris water maze. These results suggest that environmentally relevant levels of MeHg exposure may decrease NSC populations and, despite ongoing neurogenesis, the brain may not restore the hippocampal cell deficits, which may contribute to hippocampal-dependent memory deficits during adolescence.

摘要

发育中的大脑尤其容易受到环境污染物的影响。与成人不同,发育中的大脑包含大量正在分裂的神经元前体,这表明它们可能是易受攻击的目标。新生后 7 天(P7)的大鼠海马体既有 CA1-3 区域的成熟神经元,也有齿状回(DG)门区的神经干细胞(NSC),它们会积极产生新的神经元并迁移到颗粒细胞层(GCL)。利用这种特征明确的 NSC 群体,我们研究了低水平甲基汞(MeHg)对增殖、神经发生以及随后青少年学习和记忆行为的影响。在评估一系列暴露水平后,我们发现 P7 大鼠单次皮下注射 0.6µg/g 的 MeHg 会诱导门区和 GCL 中增殖 NSC 的半胱天冬酶激活。这种急性 NSC 死亡对 P21 时的 DG 产生了持久影响,使门区的细胞数量减少了 22%,GCL 减少了 27%,神经前体细胞增殖减少了 25%。相比之下,非增殖性 CA1-3 锥体神经元数量没有变化。此外,暴露于 P7 MeHg 的动物在 Morris 水迷宫评估中表现出青少年空间记忆缺陷。这些结果表明,环境相关水平的 MeHg 暴露可能会减少 NSC 群体,尽管仍在进行神经发生,但大脑可能无法恢复海马体的细胞缺陷,这可能导致青少年时期的海马体依赖型记忆缺陷。

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