Piscopo Marina, Trifuoggi Marco, Notariale Rosaria, Labar Sofiane, Troisi Jacopo, Giarra Antonella, Rabbito Dea, Puoti Raffaela, de Benedictis Domenico, Brundo Maria Violetta, Basile Adriana, Good Katrina V, Ausió Juan, Guerriero Giulia
Dipartimento di Biologia, Università degli Studi di Napoli Federico II. Napoli, Italy.
Dipartimento di Scienze Chimiche, Università degli Studi di Napoli Federico II, Napoli, Italy.
Acta Biochim Pol. 2018;65(2):259-267. doi: 10.18388/abp.2017_2533. Epub 2018 Jun 15.
Here we report the industrial pollution effects due to cadmium on the reproductive health of Mytilus galloprovincialis. Mussels were removed from the biofouling of a Conatex panel after one year exposition at a polluted site near a disposal metallurgical factory. A high cadmium bioaccumulation was observed in the testis of mussels housed at the polluted site, with respect to a control site, as determined by inductively coupled plasma-mass spectrometry, along with a 10 fold increase in metallothionein 20 kDa gene (mt20) expression levels determined by qPCR. Furthermore, mussels transferred into laboratory tanks from the reference site, and exposed to 1.5, 5 and 10 µM CdCl, revealed a 1.7, 3.2 and 4.5 fold expression increase in the testis mt20, respectively, and a positive correlation with cadmium bioaccumulation was found. To evaluate a potential detrimental risk of such alterations on spermatozoa, we carried out electrophoretic analyses on their protamine-like proteins. As determined by AU-PAGE, after 1.5 µM CdCl exposure, protamine-like proteins also display major alterations with respect to those obtained after 5 and 10 µM CdCl exposure. All protamine-like proteins isolated from the polluted biofouling were in an aggregated form and displayed the same reduced DNA binding affinity of the protamine-like proteins obtained after 1.5 µM CdCl as demonstrated EMSA with sperm genomic DNA. Our results contribute to the studies concerning cadmium induced testis alterations and highlight protamine-like proteins' analysis as an emerging biotechnique for cadmium impact assessment on Mytilus galloprovincialis, for the sensitivity of the in vivo and in vitro changes of protamine-like proteins' state and their DNA binding affinity.
在此,我们报告镉对加利福尼亚贻贝生殖健康造成的工业污染影响。在靠近一家废弃冶金厂的污染场地暴露一年后,从Conatex面板的生物污垢中取出贻贝。通过电感耦合等离子体质谱法测定,与对照场地相比,在污染场地饲养的贻贝睾丸中观察到高镉生物积累,同时通过定量聚合酶链反应测定,金属硫蛋白20 kDa基因(mt20)表达水平增加了10倍。此外,从参考场地转移到实验室水箱并暴露于1.5、5和10 μM CdCl₂的贻贝,其睾丸mt20的表达分别增加了1.7、3.2和4.5倍,并且发现与镉生物积累呈正相关。为了评估这种改变对精子的潜在有害风险,我们对其类鱼精蛋白进行了电泳分析。通过非变性聚丙烯酰胺凝胶电泳测定,暴露于1.5 μM CdCl₂后,类鱼精蛋白相对于暴露于5和10 μM CdCl₂后获得的类鱼精蛋白也显示出主要变化。从污染生物污垢中分离出的所有类鱼精蛋白均呈聚集形式,并且与用精子基因组DNA进行电泳迁移率变动分析所证明的暴露于1.5 μM CdCl₂后获得的类鱼精蛋白具有相同的降低的DNA结合亲和力。我们的结果有助于有关镉诱导睾丸改变的研究,并突出了类鱼精蛋白分析作为一种新兴生物技术,用于评估镉对加利福尼亚贻贝的影响,因为类鱼精蛋白状态及其DNA结合亲和力的体内和体外变化具有敏感性。
