These findings suggest that chronic exposure to 10 mg/kg snPt1, b

These findings suggest that BI 10773 Chronic exposure to 10 mg/kg snPt1, but not to snPt8, induced severe kidney injury. Notably, this chronic exposure to snPt1 induced additional (cumulative) kidney injury beyond that seen with acute exposure. Figure 4 Histological analysis of kidney tissues in multi-dose snPt1- or snPt8-treated mice. (A) Vehicle or test article (snPt1 or snPt8 at 10 mg/kg) was administered intraperitoneally to mice as twice-weekly doses for 4 weeks. At 72 h after last

administration, the kidney and liver were collected and fixed with 4% paraformaldehyde. Tissue sections were stained with hematoxylin and eosin and observed under a microscope. (B) Chronic kidney injury scores in mice treated with vehicle, snPt1, or snPt8. Grade 0: none, 1: slight, 2: mild, 3: moderate, 4: severe. Following exposure, nanoparticles are transported into the blood and reach the systemic circulation, selleck chemicals from which the

nanoparticles distribute and accumulate in several organs such as the lung, liver, spleen, kidneys, brain, and heart [27–30]. Because the kidney is able to remove molecules from the circulation, renal excretion is an expected route for elimination of nanoparticles. In fact, functionalized single-wall carbon nanotubes (SWCNT), following injection into mice, are rapidly excreted by the kidney [31]. The Belnacasan chemical structure hepatobiliary system also is an important route for the elimination of foreign substances and particles [32]. Because these organs play pivotal roles in eliminating foreign substances, various nanomaterials are accumulated there and lead to tissue injury. As one example, our previous Temsirolimus mw work showed that snPt1-treated mice exhibited acute hepatotoxicity [24]. In the present study, we investigated the biological effects of snPt1 after intravenous or intraperitoneal administration in mice and demonstrated that snPt1 induced nephrotoxicity and impaired renal function, as evidenced by BUN levels. In contrast, we could not find apparent toxic effects on the heart, lung, or spleen

after the single intravenous administration of snPt1, although the disposition of these nanoparticles will need to be assessed further. The underlying mechanism of snPt1-induced tissue injury still remains unclear. Cisplatin, which is a platinating agent used as part of the anti-cancer regimen for various types of cancers [33, 34], exerts its antitumor activity by binding preferentially to the nucleophilic positions on guanine and adenine of DNA, resulting in the formation of intra- and inter-strand crosslinks. Eventually, the crosslinks lead to DNA-strand breaks and killing of cancer cells [35]. However, cisplatin usage is limited due to nephrotoxicity, leading to lesions in the epithelial tubules [36, 37]. Cisplatin also causes toxicity in the liver and blood [38]. These observations suggest that the toxic effects of cisplatin resemble those of snPt1.

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