Laboratory of Clinical Toxicology, Salvatore Maugeri Foundation IRCCS, University of Pavia , Pavia , Italy and.
Toxicol Mech Methods. 2013 Oct;23(8):566-75. doi: 10.3109/15376516.2013.803270. Epub 2013 Oct 7.
Abstract Histological and immunocytochemical methods were used to examine rat's renal responses to intratracheal (i.t.) instillation of model cadmium-containing silica nanoparticles (Cd-SiNPs) and also exploring whether these potential modifications would be associated with toxicogenomic changes. Renal effects of Cd-SiNPs (1 mg/rat), CdCl2 (400 µg/rat), SiNPs (600 µg/rat) or 0.1 ml saline (control), assessed 7 and 30 d post-i.t., included (i) induction of apoptosis, (ii) cell proliferation and (iii) the overall toxic response evaluated by terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) staining, proliferating cell nuclear antigen (PCNA) immunohistochemistry as well as Periodic acid Schiff and Hematoxylin & Eosin, respectively. Area-specific apoptosis was observed in all treatment groups, the cortex and inner medulla being the most affected regions: the apoptotic changes were apparent seven days post-exposure in both areas and were still observable in inner medulla at day 30. Apoptotic frequency increase was more pronounced in Cd-SiNP-treated animals compared to either CdCl2 or SiNPs groups. At day 7, the observed parallel increased number of PCNA immunopositive cells may be associated with an enhanced cell proliferation aimed at replacing the damaged cells. Histopathological findings demonstrated comparable morphological changes of the renal structure (at glomerular and tubular levels) occurring after all treatments at both time-points and more markedly 30 d after instillation. Both morphological and toxicogenomic evaluations confirmed long-lasting renal effects of Cd-SiNPs on apoptosis and regulatory processes. Bare SiNPs i.t. administration caused morphological and apoptotic changes but did not modify gene expression profile in kidney. These findings substantiate the notion that multiple assays and an integrated testing strategy should be recommended to characterize toxicological responses to nanoparticles in mammalian systems.
采用组织学和免疫细胞化学方法研究了大鼠气管内滴注模型含镉硅纳米颗粒(Cd-SiNPs)后肾脏的反应,并探讨了这些潜在的变化是否与毒代基因组学变化有关。在气管内滴注 Cd-SiNPs(1mg/rat)、CdCl2(400μg/rat)、SiNPs(600μg/rat)或生理盐水(对照)后 7 天和 30 天,评估了肾脏的效应,包括(i)细胞凋亡、(ii)细胞增殖和(iii)通过末端脱氧核苷酸转移酶 dUTP 缺口末端标记(TUNEL)染色、增殖细胞核抗原(PCNA)免疫组织化学以及过碘酸希夫和苏木精和伊红分别评估的整体毒性反应。所有处理组均观察到特定区域的细胞凋亡,皮质和内髓质是受影响最严重的区域:在暴露后 7 天,这两个区域均出现明显的凋亡变化,在 30 天内仍可观察到内髓质的凋亡变化。与 CdCl2 或 SiNPs 组相比,Cd-SiNP 处理动物的凋亡频率增加更为明显。在第 7 天,观察到 PCNA 免疫阳性细胞数量平行增加,这可能与旨在替代受损细胞的增强细胞增殖有关。组织病理学发现,在所有处理组在两个时间点均观察到相似的肾脏结构(肾小球和肾小管水平)形态变化,且在滴注后 30 天更为明显。形态学和毒代基因组学评价均证实了 Cd-SiNPs 对细胞凋亡和调节过程的持久肾脏效应。气管内给予裸 SiNPs 会引起形态和凋亡变化,但不会改变肾脏的基因表达谱。这些发现证实了这样一种观点,即应该推荐使用多种检测方法和综合测试策略来描述哺乳动物系统中纳米颗粒的毒理学反应。
