Examining the role of nickel and NiTi nanoparticles promoting inflammation and angiogenesis.

IF 2.4 4区 医学 Q3 TOXICOLOGY
Anup K Srivastava, Dustin M Snapper, Jiwen Zheng, Banu S Yildrim, Sandeep Srivastava, Steven C Wood
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引用次数: 2

Abstract

Nickel titanium (NiTi, or Nitinol) alloy is used in several biomedical applications, including cardiac, peripheral vascular, and fallopian tube stents. There are significant biocompatibility issues of metallic implants to nickel ions and nano-/micro-sized alloy particles. Our laboratories have recently shown that microscale CoCr wear particles from metal-on-metal hips crosslink with the innate immune signaling Toll-like receptor 4 (TLR4), prompting downstream signaling that results in interleukin (IL)-1β and IL-8 gene expression. In vivo, NiTi alloy can also generate wear particles on the nanoscale (NP) that have thus far not been studied for their potential to induce inflammation and angiogenesis that can, in turn, contribute to implant (e.g. stent) failure. Earlier studies by others demonstrated that nickel could induce contact hypersensitivity by crosslinking the human, but not the mouse, TLR4. In the present work, it is demonstrated that NiCl2 ions and NiTi nanoparticles induce pro-inflammatory and pro-angiogenic cytokine/chemokine expression in human endothelial and monocyte cell lines in vitro. These observations prompt concerns about potential mechanisms for stent failure. The data here showed a direct correlation between intracellular uptake of Ni2+ and generation of reactive oxygen species. To determine a role for nickel and NiTi nanoparticles in inducing angiogenesis in vivo, 1-cm silicone angioreactors were implanted subcutaneously into athymic (T-cell-deficient) nude mice. The angioreactors contained Matrigel (a gelatinous protein mixture that resembles extracellular matrix) in addition to one of the following: PBS (negative control), VEGF/FGF-2 (positive control), NiCl2, or NiTi NP. The implantation of angioreactors represents a potential tool for quantification of angiogenic potentials of medical device-derived particles and ions in vivo. By this approach, NiTi NP were found to be markedly angiogenic, while Ni2+ was less-so. The angioreactors may provide a powerful tool to examine if debris shed from medical devices may promote untoward biological effects.

研究镍和镍钛纳米颗粒促进炎症和血管生成的作用。
镍钛(NiTi或Nitinol)合金用于多种生物医学应用,包括心脏,外周血管和输卵管支架。金属植入体对镍离子和纳米/微合金颗粒的生物相容性存在显著问题。我们的实验室最近表明,来自金属对金属髋关节的微尺度CoCr磨损颗粒与先天免疫信号toll样受体4 (TLR4)交联,促进下游信号传导,导致白细胞介素(IL)-1β和IL-8基因表达。在体内,NiTi合金也可以产生纳米级(NP)的磨损颗粒,迄今尚未对其诱导炎症和血管生成的潜力进行研究,这反过来又会导致植入物(例如支架)失效。其他人的早期研究表明,镍可以通过交联人类的TLR4而不是小鼠的TLR4来诱导接触性过敏。在本研究中,研究人员证实了NiCl2离子和NiTi纳米颗粒在体外诱导人内皮细胞和单核细胞中促炎症和促血管生成细胞因子/趋化因子的表达。这些观察结果促使人们关注支架失效的潜在机制。这里的数据显示了细胞内Ni2+的摄取与活性氧的产生之间的直接关系。为了确定镍和镍钛纳米颗粒在体内诱导血管生成的作用,将1厘米的硅胶血管反应器皮下植入胸腺(t细胞缺陷)裸鼠。血管反应器中含有Matrigel(一种类似于细胞外基质的凝胶状蛋白混合物)以及以下其中一种:PBS(阴性对照)、VEGF/FGF-2(阳性对照)、NiCl2或NiTi NP。血管反应器的植入代表了一种潜在的工具,用于定量体内医疗器械衍生颗粒和离子的血管生成电位。通过这种方法,发现NiTi NP具有明显的血管生成作用,而Ni2+则不那么明显。血管反应器可以提供一个强有力的工具来检查从医疗器械脱落的碎片是否会促进不良的生物效应。
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
Journal of Immunotoxicology
Journal of Immunotoxicology 医学-毒理学
CiteScore
6.70
自引率
3.00%
发文量
26
审稿时长
1 months
期刊介绍: The Journal of Immunotoxicology is an open access, peer-reviewed journal that provides a needed singular forum for the international community of immunotoxicologists, immunologists, and toxicologists working in academia, government, consulting, and industry to both publish their original research and be made aware of the research findings of their colleagues in a timely manner. Research from many subdisciplines are presented in the journal, including the areas of molecular, developmental, pulmonary, regulatory, nutritional, mechanistic, wildlife, and environmental immunotoxicology, immunology, and toxicology. Original research articles as well as timely comprehensive reviews are published.
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