斑马鱼 Danio rerio 中镉和铜共同摄取途径的证据。

Evidence of common cadmium and copper uptake routes in zebrafish Danio rerio.

机构信息

King's College London , Division of Diabetes and Nutritional Science, Franklin Wilkins Building, 150 Stamford Street, London SE1 9NH, United Kingdom.

出版信息

Environ Sci Technol. 2014 Nov 4;48(21):12946-51. doi: 10.1021/es5032272. Epub 2014 Oct 21.

DOI:10.1021/es5032272

PMID:25289693

Abstract

Cadmium and copper accumulations in gills of zebrafish were measured during a 48 h exposure to 0.025 μM 106Cd and 0.05 or 0.5 μM 65Cu as a single metal or their mixtures. The gill transcript levels of genes involved in the transport of Cu (CTR1 and ATP7A), Na (NHE-2), Ca (ECaC), divalent metals (DMT1), and Zn (ZIP8) were also compared between treatments at 24 and 48 h. Cd uptake was significantly suppressed in the presence of Cu, indicating interaction between Cu and Cd at uptake sites, but Cu uptake was unaffected by Cd. The decrease in Cd accumulation rates in the presence of Cu was associated with an increase in transcript abundance of ECaC at 24 h and DMT1 at 48 h and a decrease in Zip8 transcript levels, all known as routes for Cd uptake. Fish exposed to 0.5 μM 65Cu show an increase in gill ATP7a transcript abundance, suggesting that Cu is removed from the gill and is transferred to other organs for detoxification. A reduction in gill CTR1 transcript abundance was observed during the Cu-Cd exposure; this may be a regulatory mechanism to reduce Cu loading if Cu is entering the gills by other uptake routes, such as ECaC and DMT1.

摘要

在 48 小时暴露于 0.025 μM 106Cd 和 0.05 或 0.5 μM 65Cu 单一金属或其混合物的过程中，测量了斑马鱼鳃中的镉和铜积累。还比较了在 24 和 48 小时处理之间，涉及 Cu（CTR1 和 ATP7A）、Na（NHE-2）、Ca（ECaC）、二价金属（DMT1）和 Zn（ZIP8）运输的基因在鳃中的转录水平。在 Cu 的存在下，Cd 的摄取明显受到抑制，表明在摄取部位 Cu 和 Cd 之间存在相互作用，但 Cu 的摄取不受 Cd 的影响。在 Cu 存在下 Cd 积累率的降低与 24 小时时 ECaC 的转录丰度增加和 48 小时时 DMT1 的转录丰度增加以及 Zip8 转录水平降低有关，所有这些都是 Cd 摄取的途径。暴露于 0.5 μM 65Cu 的鱼显示出鳃 ATP7a 转录丰度增加，表明 Cu 从鳃中去除并转移到其他器官进行解毒。在 Cu-Cd 暴露期间观察到鳃 CTR1 转录丰度降低；如果 Cu 通过 ECaC 和 DMT1 等其他摄取途径进入鳃，则这可能是减少 Cu 负荷的调节机制。

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斑马鱼 Danio rerio 中镉和铜共同摄取途径的证据。

Evidence of common cadmium and copper uptake routes in zebrafish Danio rerio.

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