Nunes Bruno, Resende Sara Teixeira
Departamento de Biologia, Universidade de Aveiro, Campus Universitário de Santiago, 3810-193, Aveiro, Portugal.
Centro de Estudos do Ambiente e do Mar (CESAM), Universidade de Aveiro, Campus Universitário de Santiago, 3810-193, Aveiro, Portugal.
Environ Sci Pollut Res Int. 2017 May;24(13):12155-12167. doi: 10.1007/s11356-017-8761-7. Epub 2017 Mar 28.
Biomonitoring of chemical contamination requires the use of well-established and validated tools, including biochemical markers that can be potentially affected by exposure to important environmental toxicants. Cholinesterases (ChEs) are present in a large number of species and have been successfully used for decades to discriminate the environmental presence of specific groups of pollutants. The success of cholinesterase inhibition has been due to their usefulness as a biomarker to address the presence of organophosphate (OP) and carbamate (CB) pesticides. However, its use in ecotoxicology has not been limited to such chemicals, and several other putative classes of contaminants have been implicated in cholinesterasic impairment. Nevertheless, the use of cholinesterases as a monitoring tool requires its full characterization in species to be used as test organisms. This study analyzed and differentiated the various cholinesterase forms present in two autochthonous organisms from the Ria de Aveiro (Portugal) area, namely the polychaete Diopatra neapolitana and the bivalve Solen marginatus, to be used in subsequent monitoring studies. In addition, this study also validated the putative use of the now characterized cholinesterasic forms by analyzing the in vitro effects of common anthropogenic contaminants, such as detergents, pesticides, and metals. The predominant cholinesterasic form found in tissues of D. neapolitana was acetylcholinesterase, while homogenates of S. marginatus were shown to possess an atypical cholinesterasic form, with a marked preference for propionylthiocholine. Cholinesterases from D. neapolitana were generally non-responsive towards the majority of the selected chemicals. On the contrary, strong inhibitory effects were reported for ChEs of S. marginatus following exposure to the selected pesticides.
化学污染的生物监测需要使用完善且经过验证的工具,包括可能会受到重要环境毒物暴露影响的生化标志物。胆碱酯酶(ChEs)存在于大量物种中,并且几十年来已成功用于区分特定污染物组在环境中的存在情况。胆碱酯酶抑制作用的成功归因于它们作为生物标志物可用于检测有机磷酸酯(OP)和氨基甲酸酯(CB)农药的存在。然而,其在生态毒理学中的应用并不局限于此类化学物质,其他几类假定的污染物也与胆碱酯酶损伤有关。尽管如此,将胆碱酯酶用作监测工具需要在用作测试生物的物种中对其进行全面表征。本研究分析并区分了来自葡萄牙阿威罗河口地区的两种本地生物体内存在的各种胆碱酯酶形式,即多毛纲动物那不勒斯蛰龙介和双壳贝类缘管浒苔,以便用于后续的监测研究。此外,本研究还通过分析常见人为污染物(如洗涤剂、农药和金属)的体外效应,验证了现已表征的胆碱酯酶形式的假定用途。在那不勒斯蛰龙介组织中发现的主要胆碱酯酶形式是乙酰胆碱酯酶,而缘管浒苔的匀浆显示具有一种非典型的胆碱酯酶形式,对丙酰硫代胆碱有明显偏好。那不勒斯蛰龙介的胆碱酯酶通常对大多数选定的化学物质无反应。相反,据报道,缘管浒苔的胆碱酯酶在接触选定的农药后会产生强烈的抑制作用。