Understanding the PET micro/nanoplastics as an environmental stressor on pancreatin enzyme: leaching and binding characterization by multi-spectroscopic and molecular docking examination, and the resulting impact on Escherichia coli.

IF 3.4 3区医学 Q3 NANOSCIENCE & NANOTECHNOLOGY

Nanotoxicology Pub Date : 2025-08-01 Epub Date: 2025-08-14 DOI:10.1080/17435390.2025.2544587

Hasan Saygin, Asli Baysal, Batuhan Tilkili, Emre Apaydin, Pemra Ozbek

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引用次数: 0

Abstract

The deformation and leaching of substances from micro/nanoplastics under biotic and abiotic conditions is an important yet often overlooked issues for the environment and human health. Furthermore, their interaction with biomolecules can result in corona formation and the surface deformation of micro/nanoplastics. However, the interaction between micro/nanoplastics and biomolecules, e.g. pancreatin, and the resulting deformation/leaching mechanisms, as well as their biological impact, remains insufficiently understood. Therefore, this study aims to examine the deformation/leaching processes of micro/nanoplastics due to the action of the pancreatin. The interaction mechanism between micro/nanoplastics and pancreatin was investigated using multi-spectroscopic and molecular docking approaches. The deformation of micro/nanoplastics was tested based on their functional groups and structure, and their leaching into the pancreatin solution was assessed by measuring aromaticity and oxidative inputs. In addition, deformation and leaching effects of micro/nanoplastics on pancreatin were investigated using its structural characteristics (e.g. aromatic side chains, activity, and agglomeration), as well as bacterial toxicity using Escherichia coli (e.g. viability, biofilm, and oxidative stress). The Fluorescence and UV-VIS spectroscopic results, as well as molecular docking simulations, revealed interactions between micro/nanoplastics and pancreatin. Deformation of the micro/nanoplastics was confirmed using higher carbonyl and hydroxyl indices by ATR-FTIR, and removal and introduction signals by ¹H-NMR. The higher aromaticity and oxidative potential of the pancreatin indicated the leaching of chemicals from the micro/nanoplastics. Furthermore, the metabolic and oxidative responses of E. coli exposed to leachates were influenced by the deformation and leaching of micro/nanoplastics, as well as by the structural characteristics of the pancreatin.

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了解PET微/纳米塑料作为胰腺酶的环境应激源：多光谱和分子对接检测的浸出和结合表征，以及由此对大肠杆菌的影响。

微/纳米塑料中物质在生物和非生物条件下的变形和浸出是一个重要但往往被忽视的环境和人类健康问题。此外，它们与生物分子的相互作用可以导致电晕的形成和微/纳米塑料的表面变形。然而，微/纳米塑料与生物分子（如胰酶）之间的相互作用，以及由此产生的变形/浸出机制，以及它们的生物影响，仍然没有得到充分的了解。因此，本研究旨在研究胰腺素作用下微/纳米塑料的变形/浸出过程。采用多光谱和分子对接方法研究了微/纳米塑料与胰酶的相互作用机制。基于其官能团和结构测试了微/纳米塑料的变形，并通过测量芳香性和氧化输入来评估其在胰酶溶液中的浸出。此外，通过其结构特征（如芳香侧链、活性和团聚）以及大肠杆菌的细菌毒性（如活力、生物膜和氧化应激），研究了微/纳米塑料对胰酶的变形和浸出效应。荧光和紫外可见光谱结果，以及分子对接模拟，揭示了微/纳米塑料与胰酶之间的相互作用。利用ATR-FTIR和1H-NMR分别利用羰基和羟基指数和去除和引入信号证实了微/纳米塑料的变形。胰腺素的高芳香性和氧化电位表明化学物质从微/纳米塑料中浸出。此外，暴露于渗滤液中的大肠杆菌的代谢和氧化反应受到微/纳米塑料的变形和浸出以及胰酶的结构特征的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nanotoxicology 医学-毒理学

CiteScore

10.10

自引率

4.00%

发文量

审稿时长

3.5 months

期刊介绍： Nanotoxicology invites contributions addressing research relating to the potential for human and environmental exposure, hazard and risk associated with the use and development of nano-structured materials. In this context, the term nano-structured materials has a broad definition, including ‘materials with at least one dimension in the nanometer size range’. These nanomaterials range from nanoparticles and nanomedicines, to nano-surfaces of larger materials and composite materials. The range of nanomaterials in use and under development is extremely diverse, so this journal includes a range of materials generated for purposeful delivery into the body (food, medicines, diagnostics and prosthetics), to consumer products (e.g. paints, cosmetics, electronics and clothing), and particles designed for environmental applications (e.g. remediation). It is the nano-size range if these materials which unifies them and defines the scope of Nanotoxicology . While the term ‘toxicology’ indicates risk, the journal Nanotoxicology also aims to encompass studies that enhance safety during the production, use and disposal of nanomaterials. Well-controlled studies demonstrating a lack of exposure, hazard or risk associated with nanomaterials, or studies aiming to improve biocompatibility are welcomed and encouraged, as such studies will lead to an advancement of nanotechnology. Furthermore, many nanoparticles are developed with the intention to improve human health (e.g. antimicrobial agents), and again, such articles are encouraged. In order to promote quality, Nanotoxicology will prioritise publications that have demonstrated characterisation of the nanomaterials investigated.