Vandebriel Rob J, Tonk Elisa Cm, de la Fonteyne-Blankestijn Liset J, Gremmer Eric R, Verharen Henny W, van der Ven Leo T, van Loveren Henk, de Jong Wim H
Centre for Health Protection, National Institute for Public Health and the Environment, PO BOX 1, Bilthoven, BA 3720, The Netherlands.
Part Fibre Toxicol. 2014 May 7;11:21. doi: 10.1186/1743-8977-11-21.
Nanosilver is used in a variety of medical and consumer products because of its antibacterial activity. This wide application results in an increased human exposure. Knowledge on the systemic toxicity of nanosilver is, however, relatively scarce. In a previous study, the systemic toxicity of 20 nm silver nanoparticles (Ag-NP) was studied in a 28-day repeated-dose toxicity study in rats. Ag-NP were intravenously administered with a maximum dose of 6 mg/kg body weight (bw)/day. Several immune parameters were affected: reduced thymus weight, increased spleen weight and spleen cell number, a strongly reduced NK cell activity, and reduced IFN-γ production were observed.
Prompted by these affected immune parameters, we wished to assess exposure effects on the functional immune system. Therefore, in the present study the T-cell dependent antibody response (TDAR) to keyhole limpet hemocyanin (KLH) was measured in a similar 28-day intravenous repeated-dose toxicity study. In addition, a range of immunological parameters was measured. Data obtained using the benchmark dose (BMD) approach were analyzed by fitting dose-response models to the parameters measured.
A reduction in KLH-specific IgG was seen, with a lowest 5% lower confidence bound of the BMD (BMDL) of 0.40 mg/kg bw/day. This suggests that Ag-NP induce suppression of the functional immune system. Other parameters sensitive to Ag-NP exposure were in line with our previous study: a reduced thymus weight with a BMDL of 0.76 mg/kg bw/day, and an increased spleen weight, spleen cell number, and spleen cell subsets, with BMDLs between 0.36 and 1.11 mg/kg bw/day. Because the effects on the spleen are not reflected by increased KLH-specific IgG, they, however, do not suggest immune stimulation.
Intravenous Ag-NP administration in a 28-day repeated-dose toxicity study induces suppression of the functional immune system. This finding underscores the importance to study the TDAR to evaluate immunotoxicity and not to rely solely on measuring immune cell subsets.
纳米银因其抗菌活性而被用于各种医疗和消费产品中。这种广泛应用导致人类接触增加。然而,关于纳米银全身毒性的知识相对较少。在之前的一项研究中,在大鼠进行的为期28天的重复剂量毒性研究中,研究了20纳米银纳米颗粒(Ag-NP)的全身毒性。Ag-NP通过静脉注射给药,最大剂量为6毫克/千克体重(bw)/天。几个免疫参数受到影响:观察到胸腺重量减轻、脾脏重量和脾细胞数量增加、自然杀伤细胞活性大幅降低以及干扰素-γ产生减少。
受这些受影响的免疫参数的启发,我们希望评估暴露对功能性免疫系统的影响。因此,在本研究中,在类似的为期28天的静脉重复剂量毒性研究中,测量了对钥孔戚血蓝蛋白(KLH)的T细胞依赖性抗体反应(TDAR)。此外,还测量了一系列免疫参数。使用基准剂量(BMD)方法获得的数据通过将剂量反应模型拟合到所测量的参数进行分析。
观察到KLH特异性IgG降低,BMD的最低5%下限(BMDL)为0.40毫克/千克bw/天。这表明Ag-NP诱导功能性免疫系统受到抑制。对Ag-NP暴露敏感的其他参数与我们之前的研究一致:胸腺重量减轻,BMDL为0.76毫克/千克bw/天,脾脏重量、脾细胞数量和脾细胞亚群增加,BMDL在0.36至1.11毫克/千克bw/天之间。然而,由于对脾脏的影响未通过增加的KLH特异性IgG反映出来,因此它们并不表明免疫刺激。
在为期28天的重复剂量毒性研究中,静脉注射Ag-NP会诱导功能性免疫系统受到抑制。这一发现强调了研究TDAR以评估免疫毒性的重要性,而不是仅仅依赖于测量免疫细胞亚群。
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