Nanoplastic Size and Surface Chemistry Dictate Decoration by Human Saliva Proteins

材料科学 唾液 纳米技术 曲面(拓扑) 高分子科学 化学工程 生物 生物化学 工程类 几何学 数学
作者
Anna Daniela Dorsch,Fritz Förschner,Mehdi Ravandeh,Walison Augusto da Silva Brito,Fariba Saadati,Mihaela Delcea,Kristian Wende,Sander Bekeschus
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (20): 25977-25993 被引量:14
标识
DOI:10.1021/acsami.4c00014
摘要

Environmental pollution with plastic polymers has become a global problem, leaving no continent and habitat unaffected. Plastic waste is broken down into smaller parts by environmental factors, which generate micro- and nanoplastic particles (MNPPs), ultimately ending up in the human food chain. Before entering the human body, MNPPs make their first contact with saliva in the human mouth. However, it is unknown what proteins attach to plastic particles and whether such protein corona formation is affected by the particle's biophysical properties. To this end, we employed polystyrene MNPPs of two different sizes and three different charges and incubated them individually with saliva donated by healthy human volunteers. Particle zeta potential and size analyses were performed using dynamic light scattering complemented by nanoliquid chromatography high-resolution mass spectrometry (nLC/HRMS) to qualitatively and quantitatively reveal the protein soft and hard corona for each particle type. Notably, protein profiles and relative quantities were dictated by plastic particle size and charge, which in turn affected their hydrodynamic size, polydispersity, and zeta potential. Strikingly, we provide evidence of the latter to be dynamic processes depending on exposure times. Smaller particles seemed to be more reactive with the surrounding proteins, and cultures of the particles with five different cell lines (HeLa, HEK293, A549, HepG2, and HaCaT) indicated protein corona effects on cellular metabolic activity and genotoxicity. In summary, our data suggest nanoplastic size and surface chemistry dictate the decoration by human saliva proteins, with important implications for MNPP uptake in humans.
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