银损伤神经发育：PC12 细胞研究。

Silver impairs neurodevelopment: studies in PC12 cells.

机构信息

Department of Pharmacology and Cancer Biology, Duke University Medical Center, Durham, North Carolina 27710, USA.

出版信息

Environ Health Perspect. 2010 Jan;118(1):73-9. doi: 10.1289/ehp.0901149.

DOI:10.1289/ehp.0901149

PMID:20056586

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2831971/

Abstract

BACKGROUND

Exposure to silver is increasing because of silver nanoparticles in consumer products.

OBJECTIVES AND METHODS

Many biological effects of silver entail actions of Ag+ (monovalent silver ions), so we used neuronotypic PC12 cells to evaluate the potential for silver to act as a developmental neurotoxicant, using chlorpyrifos (CPF), a pesticide known to evoke developmental neurotoxicity, as a positive control for comparison.

RESULTS

In undifferentiated cells, a 1-hr exposure to 10 microM Ag+ inhibited DNA synthesis more potently than did 50 microM CPF; it also impaired protein synthesis but to a lesser extent than its effect on DNA synthesis, indicating a preferential effect on cell replication. Longer exposures led to oxidative stress, loss of viability, and reduced numbers of cells. With the onset of cell differentiation, exposure to 10 microM Ag+ evoked even greater inhibition of DNA synthesis and more oxidative stress, selectively impaired neurite formation without suppressing overall cell growth, and preferentially suppressed development into the acetylcholine phenotype in favor of the dopamine phenotype. Lowering the exposure to 1 microM Ag+ reduced the net effect on undifferentiated cells. However, in differentiating cells, the lower concentration produced an entirely different pattern, enhancing cell numbers by suppressing ongoing cell death and impairing differentiation in parallel for both neurotransmitter phenotypes.

CONCLUSIONS

Our results show that silver has the potential to evoke developmental neurotoxicity even more potently than known neurotoxicants, such as CPF, and that the spectrum of effects is likely to be substantially different at lower exposures that do not show signs of outright toxicity.

摘要

背景

由于消费产品中的纳米银，人们接触银的机会越来越多。

目的和方法

银的许多生物学效应涉及到 Ag+（一价银离子）的作用，因此我们使用神经元型 PC12 细胞来评估银作为发育神经毒物的潜在可能性，使用毒死蜱（CPF）作为阳性对照进行比较，CPF 是一种已知具有发育神经毒性的农药。

结果

在未分化细胞中，1 小时暴露于 10 μM Ag+比 50 μM CPF 更能强烈抑制 DNA 合成；它还会损害蛋白质合成，但程度低于对 DNA 合成的影响，表明对细胞复制有优先影响。更长时间的暴露会导致氧化应激、活力丧失和细胞数量减少。随着细胞分化的开始，暴露于 10 μM Ag+会引起更大的 DNA 合成抑制和更多的氧化应激，选择性地损害神经突形成，而不抑制整体细胞生长，并优先抑制向乙酰胆碱表型的发育，有利于多巴胺表型。降低暴露于 1 μM Ag+会减少对未分化细胞的净影响。然而，在分化细胞中，较低浓度会产生完全不同的模式，通过抑制持续的细胞死亡来增加细胞数量，并同时损害两种神经递质表型的分化。

结论

我们的结果表明，银具有比已知神经毒物（如 CPF）更强烈地诱发发育神经毒性的潜力，并且在没有明显毒性迹象的较低暴露下，其效应谱可能会有很大的不同。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0305/2831971/4de90beb674e/ehp-118-73f1.jpg

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银损伤神经发育：PC12 细胞研究。

Silver impairs neurodevelopment: studies in PC12 cells.

机构信息

出版信息

BACKGROUND

OBJECTIVES AND METHODS

RESULTS

CONCLUSIONS

背景

目的和方法

结果

结论

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