重金属影响蚯蚓体腔细胞与细菌的平衡：非生物和生物应激源之间的环境相互作用。

Heavy metals affect the coelomocyte-bacteria balance in earthworms: environmental interactions between abiotic and biotic stressors.

作者信息

Olchawa Ewa, Bzowska Malgorzata, Stürzenbaum Stephen R, Morgan A John, Plytycz Barbara

机构信息

Department of Evolutionary Immunobiology, Institute of Zoology, Jagiellonian University, R. Ingardena 6, PL 30-060 Krakow, Poland.

出版信息

Environ Pollut. 2006 Jul;142(2):373-81. doi: 10.1016/j.envpol.2005.09.023. Epub 2005 Nov 23.

DOI:10.1016/j.envpol.2005.09.023

PMID:16309804

Abstract

Three-day dermal exposure of Dendrobaena veneta to metal ions differentially disrupts the immunocompetence/pathogen balance. Zn does not accumulate in the earthworm body, Cu accumulation is temperature-independent while Cd accumulation is stronger at 22 degrees C than at 10 degrees C. During in vitro incubation with metal ions at 22 degrees C, growth of coelom-derived bacteria is enhanced by Zn, but significantly or almost completely inhibited by Cu or Cd. In contrast, under in vivo conditions at 22 degrees C, bacterial load is decreased only after Cd exposure, but increased after Zn and Cu exposures. At 10 degrees C bacteria growth is almost completely inhibited in all groups except Cu-treated animals. Coelomocyte number is unaffected in animals exposed to Zn, but significantly decreased after exposure to Cd (at 22 degrees C) and Cu (at 22 degrees C and 10 degrees C) with concomitant changes of amoebocyte-to-eleocyte ratio in favour of amoebocytes. Metal exposure up-regulates expression of metallothioneins in coelomocytes, mainly amoebocytes.

摘要

将赤子爱胜蚓进行为期三天的皮肤暴露于金属离子会以不同方式破坏免疫能力/病原体平衡。锌不会在蚯蚓体内蓄积，铜的蓄积与温度无关，而镉在22℃时的蓄积比在10℃时更强。在22℃下与金属离子进行体外孵育时，锌会促进体腔来源细菌的生长，但铜或镉会显著或几乎完全抑制其生长。相比之下，在22℃的体内条件下，仅在镉暴露后细菌载量会降低，而在锌和铜暴露后细菌载量会增加。在10℃时，除了铜处理组的动物外，所有组的细菌生长几乎都被完全抑制。暴露于锌的动物体腔细胞数量未受影响，但暴露于镉（在22℃时）和铜（在22℃和10℃时）后，体腔细胞数量显著减少，同时变形细胞与粒细胞的比例发生变化，有利于变形细胞。金属暴露会上调体腔细胞（主要是变形细胞）中金属硫蛋白的表达。

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重金属影响蚯蚓体腔细胞与细菌的平衡：非生物和生物应激源之间的环境相互作用。

Heavy metals affect the coelomocyte-bacteria balance in earthworms: environmental interactions between abiotic and biotic stressors.

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