银纳米粒子对上皮细胞肿瘤坏死因子作用的干扰

RAN Pub Date : 2017-04-01 DOI:10.11159/icnb17.116
Grądzka Iwona, Sikorska Katarzyna, Brzóska Kamil
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引用次数: 0

摘要

银纳米颗粒(AgNPs)由于其抗菌性能被广泛用作纺织品、化妆品、食品包装、手术器械或伤口敷料的添加剂。AgNPs存在于许多消费品中,能够通过多种途径渗透人体[1]。活性氧(ROS)的形成被认为是AgNPs在细胞中作用的主要机制。根据氧化应激诱导的水平,ROS可以启动促生存和促死亡信号通路[2]。最近,我们发现AgNPs能够激活NF-κB信号通路以及炎症和应激反应相关基因的表达[3]。类似的程序被肿瘤坏死因子(TNF)激活,TNF是一种主要的促炎细胞因子[4]。我们的目的是评估AgNPs (20 nm, BSA包被)可能干扰两种人类细胞系:A549肺腺癌和HepG2肝细胞癌对TNF的细胞反应。两种类型的细胞都吸收了添加到培养基中的AgNPs,通过侧散射光进行细胞测量。在24小时的孵育过程中,TNF和AgNPs对HepG2细胞生长迟缓和细胞死亡发生率的影响是叠加性的,并且HepG2细胞对所研究的药物更敏感。细胞周期分析发现,在AgNPs影响下,两种细胞系在TNF、S和G2/M阻滞后均出现G1阻滞,而联合处理导致A549细胞中G1和S积累,HepG2细胞中G2/M积累。在较长的潜伏期(7-12天)中,在克隆原性试验中,TNF和AgNPs对细胞存活的影响是协同的。采用中性红活力24小时法检测所选信号通路抑制剂的作用。令人惊讶的是,IKK II和IKK VII (inhi途径)的使用导致两种细胞系同时接受TNF、AgNPs或两种药物处理的细胞活力增加。除了末端细胞效应外,我们还利用实时荧光定量PCR分析了参与抗氧化防御和炎症反应的基因的表达。结果表明,氧化应激诱导的血红素加氧酶1 (HMOX1)的表达在TNF和AgNPs处理的细胞中比单独TNF处理的细胞显著增强。同样,AgNPs增强了促炎细胞因子CSF3和IL-10的表达。相反,对病毒病原体识别重要的toll样受体TLR3和TLR7的表达受到AgNPs的显著抑制。目前的结果表明,AgNPs改变TNF作用的最终细胞结果并破坏细胞稳态,这可能在机体水平上促进恶性肿瘤或自身免疫性疾病的发展。因此,需要进一步的研究来提供更多关于细胞中TNF和AgNPs之间功能相互作用的性质和特异性的信息。本研究得到波兰国家科学中心2014/13/D/NZ7/00286项目资助。
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Interference of Silver Nanoparticles with Tumor Necrosis Factor Action in Epithelial Cells
Extended Abstract Silver nanoparticles (AgNPs), due to their antibacterial properties are widely used as additives to textiles, cosmetics, food packaging, surgical instruments or wound dressings. Being present in so many consumer goods, AgNPs are able to penetrate the human body via multiple paths [1]. The formation of reactive oxygen species (ROS) is believed to be the main mechanism of AgNPs action in a cell. ROS can launch both pro-survival and death signaling pathways depending on the level of oxidative stress induced [2]. Recently, we showed that AgNPs are able to activate NF-κB signaling pathway and expression of genes related to inflammatory and stress response [3]. Similar program is activated by tumor necrosis factor (TNF) – a major pro-inflammatory cytokine [4]. Our objective was to assess the possible interference of AgNPs (20 nm, BSA coated) with cellular response to TNF in two human cell lines: A549 lung adenocarcinoma and HepG2 liver hepatocellular carcinoma. Both types of cells absorbed AgNPs added to the medium as shown cytometrically by using side-scattered light. During 24-hour incubation, the effect of TNF and AgNPs on growth retardation and the incidence of cell death was additive and HepG2 cells were more sensitive to the agents studied. Analysis of the cell cycle discovered G1 arrest after TNF and S and G2/M arrest under AgNPs influence in both cell lines, whereas the combined treatment resulted in G1 and S accumulation in A549 and G2/M accumulation in HepG2 cells. Over a longer incubation period (7-12 days), in the clonogenicity test, the effect of TNF and AgNPs on the cell survival was synergistic. The effect of the selected signaling pathways inhibitors was tested using neutral red viability 24-hour assay. Surprisingly, the use of IKK II and IKK VII the inhi pathway – led to the increase of the cell viability in both cell lines treated with TNF, AgNPs or both agents simultaneously. Apart from end cellular effects, the expression of genes involved in the anti-oxidative defense and inflammatory response was analyzed by using real-time PCR. It was shown that the expression of heme oxygenase 1 (HMOX1), the protein induced by oxidative stress, was greatly enhanced in TNF and AgNPs treated cells compared to that observed after TNF alone. Similarly, AgNPs augmented the expression of pro-inflammatory cytokines CSF3 and IL-10. On the contrary, the expression of toll-like receptors TLR3 and TLR7, important for virus pathogen recognition, was significantly hampered by the addition of AgNPs. The presented results indicate that AgNPs change the final cellular result of TNF action and disrupt the cellular homeostasis, that can contribute to the development of malignancy or autoimmune diseases at the level of the organism. Therefore, an extended study is needed to provide more information about the nature and specificity of the functional interactions between TNF and AgNPs in cells. This work was supported by the grant 2014/13/D/NZ7/00286 from National Science Centre, Poland.
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