Antalya Bilim University, Vocational School of Health Services, Department of Medical Services and Techniques, Medical Laboratory Techniques Programme, Antalya, Turkey.
J Toxicol Environ Health A. 2021 Aug 18;84(16):649-660. doi: 10.1080/15287394.2021.1913684. Epub 2021 Apr 19.
The abundant presence and extensive use of polystyrene microplastics (PSMPs) has recently become a serious environmental concern, as impact of exposure to these substances on human health remains unknown. While in vitro studies yield data on adverse effect of PSMPs, in vivo approaches are more relevant for risk assessment. is one of the most genetically and experimentally accessible model organisms used in biology as an in vivo model. was selected as a representative in vivo model organism to examine the genotoxic potential of PSMPs at 5 concentrations of three different sizes namely 4, 10, or 20 µm. In particular, the wing somatic mutation and recombination test (SMART), a scalable, time-efficient in vivo assay developed to study genotoxicity of various compounds in a rapid manner at low costs was used. The third-instar larvae were exposed to PSMPs through food at 5 concentrations ranging from 0.01-10 mM. Viability (lethality), larval length, morphological deformations, locomotor activity (climbing behavior), and genotoxic effects were the end-points measured. Exposure to PSMPs at 4, 10, or 20 µm produced significant morphological defects, impaired climbing behavior, and genotoxicity as evidenced by the SMART test demonstrating induction of somatic recombination. Significant increases were observed in the frequency of total spots, suggesting that PSMPs might induce genotoxic activity predominantly via initiation of somatic DNA recombination in a concentration-dependent manner.
聚苯乙烯微塑料(PSMPs)的大量存在和广泛使用最近成为一个严重的环境问题,因为暴露于这些物质对人类健康的影响尚不清楚。虽然体外研究提供了 PSMPs 产生不良影响的数据,但体内方法对于风险评估更为相关。 是生物学中使用的最具遗传和实验可操作性的模式生物之一,作为体内模型。 被选为代表性的体内模式生物,以研究三种不同大小的 5 种浓度的 PSMPs 的遗传毒性潜力,分别为 4、10 或 20 μm。特别是,翼体突变和重组测试(SMART),一种可扩展、高效的体内测定方法,旨在以低成本快速研究各种化合物的遗传毒性,被用于研究。在 5 种浓度范围内,从 0.01-10 mM ,通过食物将 PSMPs 暴露于三龄幼虫。测量的终点包括活力(致死率)、幼虫长度、形态畸形、运动活性(攀爬行为)和遗传毒性效应。暴露于 4、10 或 20 μm 的 PSMPs 会导致明显的形态缺陷、攀爬行为受损以及 SMART 测试证明的遗传毒性,表明体细胞重组的诱导。总斑点的频率显著增加,表明 PSMPs 可能主要通过起始体细胞 DNA 重组以浓度依赖的方式诱导遗传毒性活性。
