Formyl-Peptide Receptor Agonists and Amorphous SiO₂-NPs Synergistically and Selectively Increase the Inflammatory Responses of Human Monocytes and PMNs.

Q1 Engineering Nanobiomedicine Pub Date : 2016-01-01 DOI:10.5772/62251

Regina Tavano, Daniela Segat, Chiara Fedeli, Giulia Malachin, Elisa Lubian, Fabrizio Mancin, Emanuele Papini

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引用次数: 3

Abstract

We tested whether amorphous SiO₂-NPs and formylpeptide receptor (FPRs) agonists synergistically activate human monocytes and neutrophil polymorphonuclear granulocytes (PMNs). Peptide ligands specifically binding to FPR1 (f-MLP) and to FPR2 (MMK-1, WKYMVM and WKYMVm) human isoforms did not modify the association of SiO₂-NPs to both cell types or their cytotoxic effects. Similarly, the extent of CD80, CD86, CD83, ICAM-1 and MHCII expression in monocytes treated with SiO₂-NPs was not significantly altered by any FPRs agonist. However, FPR1 stimulation with f-MLP strongly increased the secretion of IL-1β, IL-6 and IL-8 by human monocytes, and of IL-8 by PMNs in the presence of SiO₂-NPs, due to the synergic stimulation of gene transcription. FPR2 agonists also up-modulated the production of IL-1β induced by monocytes treated with SiO₂-NPs. In turn, SiO₂-NPs increased the chemotaxis of PMNs toward FPR1-specific ligands, but not toward FPR2-specific ones. Conversely, the chemotaxis of monocytes toward FPR2-specific peptides was inhibited by SiO₂-NPs. NADPH-oxidase activation triggered by FPR1- and FPR2-specific ligands in both cell types was not altered by SiO₂-NPs. Microbial and tissue danger signals sensed by FPRs selectively amplified the functional responses of monocytes and PMN_S to SiO₂-NPs, and should be carefully considered in the assessment of the risk associated with nanoparticle exposure.

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甲酰基肽受体激动剂和无定形SiO2-NPs协同和选择性地增加人单核细胞和PMNs的炎症反应。

我们测试了无定形SiO2-NPs和甲酰基肽受体(FPRs)激动剂是否协同激活人单核细胞和中性粒细胞多形核粒细胞(PMNs)。特异性结合FPR1 (f-MLP)和FPR2 (MMK-1、WKYMVM和WKYMVM)人亚型的肽配体不会改变二氧化氧核糖核酸与两种细胞类型的关联或它们的细胞毒性作用。同样，用SiO2-NPs处理的单核细胞中CD80、CD86、CD83、ICAM-1和MHCII的表达程度没有被任何FPRs激动剂显著改变。然而，由于基因转录的协同刺激，f-MLP刺激FPR1强烈增加了人单核细胞分泌IL-1β、IL-6和IL-8，以及在SiO2-NPs存在下PMNs分泌IL-8。FPR2激动剂也上调了由SiO2-NPs处理的单核细胞诱导的IL-1β的产生。反过来，SiO2-NPs增加了PMNs对fpr1特异性配体的趋化性，而不是对fpr2特异性配体的趋化性。相反，单核细胞对fpr2特异性肽的趋化性被SiO2-NPs抑制。在两种细胞类型中，由FPR1-和fpr2特异性配体触发的nadph氧化酶激活不被SiO2-NPs改变。fpr感知的微生物和组织危险信号选择性地放大了单核细胞和PMNS对SiO2-NPs的功能反应，在评估与纳米颗粒暴露相关的风险时应仔细考虑。

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

Nanobiomedicine Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

6.80

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： Nanobiomedicine is an international, peer-reviewed, open access scientific journal that publishes research in nanotechnology as it interfaces with fundamental studies in biology, as well as its application to the fields of medicine. Nanobiomedicine covers all key aspects of this research field, including, but not limited to, bioengineering, biophysics, physical and biological chemistry, and physiology, as well as nanotechnological applications in diagnostics, therapeutic application, preventive medicine, drug delivery, and monitoring of human disease. Additionally, theoretical and modeling studies covering the nanobiomedicine fields will be considered. All submitted articles considered suitable for Nanobiomedicine are subjected to rigorous peer review to ensure the highest levels of quality. The review process is carried out as quickly as possible to minimize any delays in the online publication of articles. Submissions are encouraged on all topics related to nanobiomedicine, and its clinical applications including but not limited to: Nanoscale-structured biomaterials, Nanoscale bio-devices, Nanoscale imaging, Nanoscale drug delivery, Nanobiotechnology, Nanorobotics, Nanotoxicology, Nanoparticles, Nanocarriers, Nanofluidics, Nanosensors (nanowires, nanophotonics), Nanosurgery (dermatology, gastroenterology, ophthalmology, etc), Nanocarriers commercialization of nanobiomedical technologies, Market trends in the nanobiomedicine space, Ethics and regulatory aspects of nanobiomedicine approval, New perspectives of nanobiomedicine in clinical diagnostics, BioMEMS, Nano-coatings, Plasmonics, Nanoscale visualization.