Gallocchio Federica, Moressa Alessandra, Pascoli Francesco, Vetri Alessia, Toffan Anna, Pretto Tobia, Arcangeli Giuseppe, Angeletti Roberto, Ricci Antonia
Laboratorio di Chimica, Laboratorio Nazionale di Riferimento per i Nanomateriali Negli Alimenti, Istituto Zooprofilattico Sperimentale delle Venezie, 35020 Padova, Italy.
Laboratorio di Ittiovirologia, Istituto Zooprofilattico Sperimentale delle Venezie, 35020 Padova, Italy.
Animals (Basel). 2023 Mar 30;13(7):1208. doi: 10.3390/ani13071208.
The interaction of nanomaterials with pollutants in the marine environment might alter bioavailability, as well as toxicity, of both nanomaterials and pollutants, representing a risk, not only for marine organisms, but also for consumers through the marine food chain.The aim of this study was to evaluate the effect of titanium dioxide nanoparticles (TiONPs) in terms of bioaccumulation and toxicity on Mediterranean mussels () exposed to six-indicator non-dioxin-like polychlorinated biphenyls (ndl-PCBs). Mussels were exposed to ndl-PCBs (20 µg/mL) (groups 3-4) or to a combination of ndl-PCBs (20 µg/mL) and TiONPs (100 µg/mL) (groups 5-6) for four consecutive days. TiONPs was detected in groups 5-6 (3247 ± 567 and 1620 ± 223 µg/kg respectively), but their presence did not affect ndl-PCBs bioaccumulation in mussels. In fact, in groups 3-4, the concentration of ndl-PCBs (ranging from 3818.4 ± 166.0-10,176 ± 664.3 µg/kg and 2712.7 ± 36.1-9498.0 ± 794.1 µg/kg respectively) was not statistically different from that of groups 5-6 (3048.6 ± 24.0-14,635.9 ± 1029.3 and 5726.0 ± 571.0-9931.2 ± 700.3 µg/kg respectively). Histological analyses showed alterations to the structure of the gill tissue with respect to the control groups, with more severe and diffuse dilatation of the central hemolymphatic vessels of the gill lamellae in groups 5-6 (treated with TiONPs and ndl-PCBs concurrently) compared to groups 3-4 (ndl-PCBs only). Finally, in mussels submitted to a seven-day depuration process, most TiONPs were eliminated, and NPs had a synergistic effect on ndl-PCBs elimination; as a matter of fact, in groups 5-6, the percentage of concentration was statically inferior to the one observed in groups 3-4. In any case, consumers might be exposed to TiONPs and ndl-PCBs (both concurrently and separately) if edible mussels, harvested in a contaminated environment, are consumed without a proper depuration process.
纳米材料与海洋环境中的污染物之间的相互作用可能会改变纳米材料和污染物的生物利用度以及毒性,这不仅对海洋生物构成风险,还会通过海洋食物链对消费者构成风险。本研究的目的是评估二氧化钛纳米颗粒(TiONPs)对暴露于六种指示性非二噁英类多氯联苯(ndl-PCBs)的地中海贻贝()的生物累积和毒性影响。贻贝连续四天暴露于ndl-PCBs(20 µg/mL)(第3 - 4组)或ndl-PCBs(20 µg/mL)与TiONPs(100 µg/mL)的组合(第5 - 6组)。在第5 - 6组中检测到了TiONPs(分别为3247 ± 567和1620 ± 223 µg/kg),但其存在并未影响贻贝中ndl-PCBs的生物累积。事实上,在第3 - 4组中,ndl-PCBs的浓度(分别为3818.4 ± 166.0 - 10,176 ± 664.3 µg/kg和2712.7 ± 36.1 - 9498.0 ± 794.1 µg/kg)与第5 - 6组(分别为3048.6 ± 24.0 - 14,635.9 ± 1029.3和5726.0 ± 571.0 - 9931.2 ± 700.3 µg/kg)在统计学上没有差异。组织学分析表明,与对照组相比,鳃组织的结构发生了改变,与仅暴露于ndl-PCBs的第3 - 4组相比,第5 - 6组(同时暴露于TiONPs和ndl-PCBs)鳃小片的中央血淋巴血管扩张更严重且更广泛。最后,在经过七天净化过程处理的贻贝中,大部分TiONPs被清除,并且纳米颗粒对ndl-PCBs的清除具有协同作用;事实上,在第5 - 6组中,浓度百分比在统计学上低于第3 - 4组中观察到的浓度百分比。无论如何,如果在受污染环境中收获可食用贻贝且未经过适当净化过程就被食用,消费者可能会同时或分别接触到TiONPs和ndl-PCBs。
