Le Roux Gaël, Moche Hélène, Nieto Alejandro, Benoit Jean-Pierre, Nesslany Fabrice, Lagarce Frédéric
L'UNAM Université, Inserm U1066 MINT, CHU d'Angers, 49933 Angers Cedex 9, France.
Laboratoire de Toxicologie, Institut Pasteur de Lille, EA 4483, 59019 Lille Cedex, France.
Toxicol In Vitro. 2017 Jun;41:189-199. doi: 10.1016/j.tiv.2017.03.007. Epub 2017 Mar 18.
Lipid nanocapsules (LNCs) offer a promising method for the entrapment and nanovectorisation of lipophilic molecules. This new type of nanocarrier, formulated according to a solvent-free process and using only regulatory-approved components, exhibits many prerequisites for being well tolerated. Although toxicological reference values have already been obtained in mice, interaction of LNCs at the cell level needs to be elucidated. LNCs, measuring from 27.0±0.1nm (25nm LNCs) and 112.1±1.8nm (100nm LNCs) and with a zeta potential between -38.7±1.2mV and +9.18±0.4mV, were obtained by a phase inversion process followed by post-insertion of carboxy- or amino-DSPE-PEG. Trypan blue, MTS and neutral red uptake (NRU) assays were performed to evaluate the cytotoxicity of LNCs on mouse macrophage-like cells RAW264.7 after 24h of exposure. The determination of 50% lethal concentration (LC50) showed a size effect of LNCs on toxicity profiles: LC50 ranged from 1.036mg/L (MTS) and 0.477mg/mL (NRU) for 25nm LNCs, to 4.42mg/mL (MTS) and 2.18mg/mL (NRU) for 100nm LNCs. Surfactant Solutol® HS15 has been shown to be the only constituent to exhibit cytotoxicity; its LC50 reached 0.427mg/mL. Moreover, LNCs were not more toxic than their components in simple mixtures. At sublethal concentration, 100nm LNCs only were able to induce a significant production of nitric oxide (NO) by RAW264.7 cells, as assessed by the Griess reaction. Again, surfactant was the only component responsible for an increased NO release (1.8±0.2-fold). Genotoxicity assays revealed no DNA damage on human lymphocytes in both the in vitro Comet and micronucleus assays using 4-hour and 24-hour treatments, respectively.
脂质纳米胶囊(LNCs)为亲脂性分子的包封和纳米载体化提供了一种很有前景的方法。这种新型纳米载体是根据无溶剂工艺配制的,仅使用监管部门批准的成分,具备许多良好耐受性的前提条件。尽管已经在小鼠身上获得了毒理学参考值,但LNCs在细胞水平的相互作用仍需阐明。通过相转化法,随后进行羧基或氨基 - DSPE - PEG的后插入,获得了尺寸为27.0±0.1nm(25nm LNCs)和112.1±1.8nm(100nm LNCs)、ζ电位在 - 38.7±1.2mV至 + 9.18±0.4mV之间的LNCs。在暴露24小时后,进行台盼蓝、MTS和中性红摄取(NRU)试验,以评估LNCs对小鼠巨噬细胞样细胞RAW264.7的细胞毒性。50%致死浓度(LC50)的测定显示LNCs对毒性特征有尺寸效应:25nm LNCs的LC50范围为1.036mg/L(MTS)和0.477mg/mL(NRU),100nm LNCs的LC50范围为4.42mg/mL(MTS)和2.18mg/mL(NRU)。表面活性剂Solutol® HS15已被证明是唯一表现出细胞毒性的成分;其LC50达到0.427mg/mL。此外,LNCs在简单混合物中的毒性并不比其成分更大。在意想不到的浓度下,只有100nm LNCs能够诱导RAW264.7细胞产生显著的一氧化氮(NO),这通过格里斯反应评估。同样,表面活性剂是导致NO释放增加(1.8±0.2倍)的唯一成分。遗传毒性试验显示,在分别使用4小时和24小时处理的体外彗星试验和微核试验中,对人类淋巴细胞均无DNA损伤。
