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利用贻贝类生物进行海洋环境组分层析的生态毒性综合测试策略(ITS-ECO):使用原始和涂覆 CuO 和 TiO2 纳米材料的案例研究。

An Integrated Testing Strategy for Ecotoxicity (ITS-ECO) Assessment in the Marine Environmental Compartment using Mytilus spp.: A Case Study using Pristine and Coated CuO and TiO Nanomaterials.

机构信息

Institute of Life and Earth Sciences, Heriot-Watt University, Edinburgh, United Kingdom.

出版信息

Environ Toxicol Chem. 2022 Jun;41(6):1390-1406. doi: 10.1002/etc.5313. Epub 2022 Apr 11.

DOI:10.1002/etc.5313
PMID:35226375
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9321938/
Abstract

An integrated testing strategy for ecotoxicity assessment (ITS-ECO) was developed to aid in the hazard and fate assessment of engineered nanomaterials (ENMs) deposited in marine environments using the bivalve Mytilus spp. as a test species. The ENMs copper(II) oxide (CuO) and titanium dioxide (TiO ), either in pristine form (core) or with functionalized coatings (polyethylene glycol [PEG], carboxyl [COOH], and ammonia [NH ]) were selected as case study materials based on their production levels and use. High-throughput in vitro testing in Tier 1 of the ITS-ECO revealed CuO ENMs to elicit cytotoxic effects on lysosomes of hemocytes of mussels, with the hazard potential CuO PEG > CuO COOH > CuO NH  > CuO core, whereas TiO ENMs were not cytotoxic. Genotoxicity in hemocytes as well as gill cells of mussels following in vivo exposure (48 h) to CuO ENMs was also seen. Longer in vivo exposures in Tier 2 (48 h-21 days) revealed subacute and chronic oxidative effects for both CuO and TiO ENMs, in some cases leading to lipid peroxidation (core TiO ENMs). In Tier 3 bioaccumulation studies, distinct patterns of uptake for Cu (predominantly in gills) and Ti (predominantly in digestive glands) and between the different core and coated ENMs were found. Clear NM-specific and coating-dependent effects on hazard and fate were seen. Overall, using a tiered testing approach, the ITS-ECO was able to differentiate the hazard (acute, subacute, and chronic effects) posed by ENMs of different compositions and coatings and to provide information on fate for environmental risk assessment of these ENMs. Environ Toxicol Chem 2022;41:1390-1406. © 2022 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.

摘要

采用贝类贻贝作为测试物种,开发了一种用于评估工程纳米材料(ENMs)在海洋环境中沉积的生态毒性的综合测试策略(ITS-ECO),以辅助危害和归宿评估。选择未修饰(核心)或具有功能化涂层(聚乙二醇 [PEG]、羧基 [COOH] 和氨 [NH ])的铜(II)氧化物(CuO)和二氧化钛(TiO )两种形式的 ENM 作为案例研究材料,基于它们的生产水平和用途。ITS-ECO 第 1 层的高通量体外测试显示,CuO ENM 对贻贝血细胞中的溶酶体产生细胞毒性作用,危害潜力 CuO PEG>CuO COOH>CuO NH >CuO 核心,而 TiO ENM 则没有细胞毒性。体内暴露(48 小时)后贻贝血细胞和鳃细胞中的遗传毒性也可见。第 2 层(48 小时-21 天)更长时间的体内暴露显示,CuO 和 TiO ENM 均产生亚急性和慢性氧化作用,在某些情况下导致脂质过氧化(核心 TiO ENM)。在第 3 层生物累积研究中,发现 Cu(主要在鳃中)和 Ti(主要在消化腺中)以及不同核心和涂层 ENM 之间的摄取存在明显模式。发现 NM 特异性和涂层依赖性对危害和归宿有明显影响。总的来说,使用分层测试方法,ITS-ECO 能够区分不同组成和涂层的 ENM 所带来的危害(急性、亚急性和慢性影响),并为这些 ENM 的环境风险评估提供归宿信息。Environ Toxicol Chem 2022;41:1390-1406。版权所有 2022 年,作者。环境毒理化学由 Wiley Periodicals LLC 代表 SETAC 出版。

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