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生物分子作为冷等离子体安全性的模型指标。

Biomolecules as Model Indicators of and Cold Plasma Safety.

作者信息

Heslin Caitlin, Boehm Daniela, Gilmore Brendan F, Megaw Julianne, Freeman Theresa A, Hickok Noreen J, Cullen P J, Bourke Paula

机构信息

School of Food Science and Environmental Health, Technological University Dublin, Dublin, Ireland.

School of Pharmacy, Queens University Belfast, Belfast, United Kingdom.

出版信息

Front Phys. 2021 Jan;8. doi: 10.3389/fphy.2020.613046. Epub 2021 Jan 14.

DOI:10.3389/fphy.2020.613046
PMID:37124146
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10136044/
Abstract

The potential applications for cold plasma in medicine are extensive, from microbial inactivation and induction of apoptosis in cancer cells to stimulating wound healing and enhancing the blood coagulation cascade. The safe bio-medical application of cold plasma and subsequent effect on complex biological pathways requires precision and a distinct understanding of how physiological redox chemistry is manipulated. Chemical modification of biomolecules such as carbohydrates, proteins, and lipids treated with cold plasma have been characterized, however, the context of how alterations of these molecules affect cell behavior or functionality has not been determined. Thus, this study examines the cytotoxic and mutagenic effects of plasma-treated molecules using CHO-K1 cells and in larvae. Specifically, albumin, glucose, cholesterol, and arachidonic acid were chosen as representative biomolecules, with established involvement in diverse bioprocesses including; cellular respiration, intracellular transport, cell signaling or membrane structure. Long- and short-term effects depended strongly on the molecule type and the treatment milieu indicating the impact of chemical and physical modifications on downstream biological pathways. Importantly, absence of short-term toxicity did not always correlate with absence of longer-term effects, indicating the need to comprehensively assess ongoing effects for diverse biological applications.

摘要

冷等离子体在医学中的潜在应用广泛,从微生物灭活、诱导癌细胞凋亡到促进伤口愈合和增强血液凝固级联反应。冷等离子体的安全生物医学应用以及对复杂生物途径的后续影响需要精确性,并且需要对生理氧化还原化学的操控方式有清晰的理解。已经对冷等离子体处理过的生物分子(如碳水化合物、蛋白质和脂质)的化学修饰进行了表征,然而,这些分子的改变如何影响细胞行为或功能的背景尚未确定。因此,本研究使用CHO-K1细胞和幼虫来研究等离子体处理过的分子的细胞毒性和诱变效应。具体而言,选择白蛋白、葡萄糖、胆固醇和花生四烯酸作为代表性生物分子,它们已被证实参与多种生物过程,包括细胞呼吸、细胞内运输、细胞信号传导或膜结构。长期和短期效应在很大程度上取决于分子类型和处理环境,这表明化学和物理修饰对下游生物途径有影响。重要的是,短期毒性的不存在并不总是与长期效应的不存在相关,这表明需要全面评估各种生物应用中的持续效应。

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