a Developmental Toxicology Laboratory, Systems Toxicology and Health Risk Assessment Group, CSIR-Indian Institute of Toxicology Research, Vishvigyan Bhavan , Lucknow, India.
g Department of Biochemistry, School of Dental Sciences , Babu Banarasi Das University Lucknow , Uttar Pradesh , India.
Nanotoxicology. 2017 Jun;11(5):671-686. doi: 10.1080/17435390.2017.1343874. Epub 2017 Jul 4.
Silver nanoparticles (AgNPs) are one of the most widely used nanomaterials. Following oral exposure, AgNPs can accumulate in various organs including kidneys where they show gender specific accumulation. There is limited information on their effect on renal system following long-term animal exposure especially at the ultramicroscopic and molecular level. In this study, we have assessed the effect of 60 days oral AgNPs treatment on kidneys of female Wistar rats at doses of 50 ppm and 200 ppm that are below previously reported lowest observed adverse effect level (LOAEL). AgNPs treatment led to decrease in kidney weight and some loss of renal function as seen by increased levels of serum creatinine and early toxicity markers such as KIM-1, clusterin and osteopontin. We also observed significant mitochondrial damage, loss of brush border membranes, pronounced swelling of podocytes and degeneration of their foot processes using transmission electron microscopy (TEM). These symptoms are similar to those seen in nephrotic syndrome and 'Minimal change disease' of kidney where few changes are visible under light microscopy but significant ultrastructural damage is observed. Prolonged treatment of AgNPs also led to the activation of cell proliferative, survival and proinflammatory factors (Akt/mTOR, JNK/Stat and Erk/NF-κB pathways and IL1β, MIP2, IFN-γ, TNF-α and RANTES) and dysfunction of normal apoptotic pathway. Our study shows how long term AgNPs exposure may promote ultrastructural damage to kidney causing inflammation and expression of cell survival factors. These changes, in the long term, could lead to inhibition of the beneficial apoptotic pathway and promotion of necrotic cell death in kidneys.
银纳米颗粒(AgNPs)是应用最广泛的纳米材料之一。经口服暴露后,AgNPs 可在包括肾脏在内的各种器官中蓄积,且在肾脏中的蓄积具有性别特异性。然而,关于长期动物暴露后 AgNPs 对肾脏系统的影响,尤其是在超微结构和分子水平上的影响,信息有限。在本研究中,我们评估了 60 天口服 AgNPs 处理对雌性 Wistar 大鼠肾脏的影响,剂量分别为 50ppm 和 200ppm,这低于先前报道的最低观察到的不良效应水平(LOAEL)。AgNPs 处理导致肾脏重量下降和部分肾功能丧失,表现为血清肌酐水平升高以及早期毒性标志物如 KIM-1、簇蛋白和骨桥蛋白升高。我们还通过透射电子显微镜(TEM)观察到明显的线粒体损伤、刷状缘膜丢失、足细胞显著肿胀和足突退化。这些症状类似于肾病综合征和肾脏的“微小病变病”,在光镜下几乎看不到变化,但观察到明显的超微结构损伤。AgNPs 的长期处理还导致细胞增殖、存活和促炎因子(Akt/mTOR、JNK/Stat 和 Erk/NF-κB 途径以及 IL1β、MIP2、IFN-γ、TNF-α 和 RANTES)的激活和正常凋亡途径的功能障碍。我们的研究表明,长期 AgNPs 暴露如何促进肾脏的超微结构损伤,导致炎症和细胞存活因子的表达。这些变化可能会长期抑制有益的凋亡途径,促进肾脏的坏死性细胞死亡。
