一氧化氮依赖的氧化石墨烯生物降解减轻胃肠道炎症。

Nitric oxide-dependent biodegradation of graphene oxide reduces inflammation in the gastrointestinal tract.

作者信息

Peng Guotao, Montenegro Marcelo F, Ntola Chifundo N M, Vranic Sandra, Kostarelos Kostas, Vogt Carmen, Toprak Muhammet S, Duan Tianbo, Leifer Klaus, Bräutigam Lars, Lundberg Jon O, Fadeel Bengt

机构信息

Institute of Environmental Medicine, Karolinska Institutet, Stockholm, Sweden.

Department of Physiology and Pharmacology, Karolinska Institutet, Stockholm, Sweden.

出版信息

Nanoscale. 2020 Aug 20;12(32):16730-16737. doi: 10.1039/d0nr03675g.

DOI:10.1039/d0nr03675g

PMID:32785315

Abstract

Understanding the biological fate of graphene-based materials such as graphene oxide (GO) is crucial to assess adverse effects following intentional or inadvertent exposure. Here we provide first evidence of biodegradation of GO in the gastrointestinal tract using zebrafish as a model. Raman mapping was deployed to assess biodegradation. The degradation was blocked upon knockdown of nos2a encoding the inducible nitric oxide synthase (iNOS) or by pharmacological inhibition of NOS using l-NAME, demonstrating that the process was nitric oxide (NO)-dependent. NO-dependent degradation of GO was further confirmed in vitro by combining a superoxide-generating system, xanthine/xanthine oxidase (X/XO), with an NO donor (PAPA NONOate), or by simultaneously producing superoxide and NO by decomposition of SIN-1. Finally, by using the transgenic strain Tg(mpx:eGFP) to visualize the movement of neutrophils, we could show that inhibition of the degradation of GO resulted in increased neutrophil infiltration into the gastrointestinal tract, indicative of inflammation.

摘要

了解氧化石墨烯（GO）等基于石墨烯的材料的生物命运对于评估有意或无意接触后的不良影响至关重要。在此，我们以斑马鱼为模型，首次提供了GO在胃肠道中生物降解的证据。采用拉曼映射来评估生物降解。当编码诱导型一氧化氮合酶（iNOS）的nos2a基因敲低或使用L-NAME对一氧化氮合酶进行药理学抑制时，降解被阻断，这表明该过程依赖于一氧化氮（NO）。通过将超氧化物生成系统黄嘌呤/黄嘌呤氧化酶（X/XO）与NO供体（PAPA NONOate）结合，或通过SIN-1分解同时产生超氧化物和NO，在体外进一步证实了GO的NO依赖性降解。最后，通过使用转基因品系Tg（mpx：eGFP）来可视化中性粒细胞的运动，我们可以表明，抑制GO的降解会导致中性粒细胞向胃肠道的浸润增加，这表明存在炎症。

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一氧化氮依赖的氧化石墨烯生物降解减轻胃肠道炎症。

Nitric oxide-dependent biodegradation of graphene oxide reduces inflammation in the gastrointestinal tract.

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