寡聚化淀粉样β蛋白和铁的亚细胞毒性水平对皮质培养物中突触信号传导的协同抑制作用：锌的缓解作用

Synergistic inhibition of synaptic signaling in cortical cultures by subcytotoxic levels of oligomerized amyloid-β and iron: alleviation by zinc.

作者信息

Taddeo Marta Anne, Lee Sangmook, Shea Thomas B

机构信息

Center of Neurobiology and Neurodegeneration Research, Department of Biological Sciences and Biochemistry, University of Massachusetts Lowell, Lowell, MA, USA.

出版信息

J Alzheimers Dis. 2014;41(2):365-9. doi: 10.3233/JAD-132696.

DOI:10.3233/JAD-132696

PMID:24625798

Abstract

Iron exacerbates amyloid-β (Aβ) toxicity, while zinc alleviates it. We examined the impact of these metals on Aβ-induced signaling inhibition. Murine embryonic cortical neurons on multi-electrode arrays received 0.1 μM FeCl2 0.1 μM zinc acetate and/or 10 nM oligomerized Aβ(1-42). No toxicity was observed. Spontaneous signaling was not altered by iron or Aβ individually, but was inhibited by both. Zinc did not impact signaling alone, but prevented inhibition by iron plus Aβ. Aβ can be detected years before cognitive decline. Subcytotoxic iron levels may potentiate Aβ-induced impairment of synaptic activity during these early stages; zinc supplementation may alleviate this potentiation.

摘要

铁会加剧β-淀粉样蛋白（Aβ）的毒性，而锌则可减轻这种毒性。我们研究了这些金属对Aβ诱导的信号抑制的影响。在多电极阵列上的小鼠胚胎皮质神经元接受了0.1μM氯化铁、0.1μM醋酸锌和/或10 nM寡聚化Aβ（1-42）的处理。未观察到毒性。单独的铁或Aβ不会改变自发信号，但两者共同作用则会抑制自发信号。锌单独作用时不会影响信号，但可防止铁加Aβ对信号的抑制。在认知能力下降前数年就能检测到Aβ。在这些早期阶段，亚细胞毒性水平的铁可能会增强Aβ诱导的突触活动损伤；补充锌可能会减轻这种增强作用。

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寡聚化淀粉样β蛋白和铁的亚细胞毒性水平对皮质培养物中突触信号传导的协同抑制作用：锌的缓解作用

Synergistic inhibition of synaptic signaling in cortical cultures by subcytotoxic levels of oligomerized amyloid-β and iron: alleviation by zinc.

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