Abstract
Gold nanoparticles (AuNPs) are foreseen as a promising tool in nanomedicine, both as drug carriers and radiosensitizers. They have been also proposed as a potential anticancer drug due to the anti-angiogenic effect in tumor tissue. In this work we investigated the effect of citrate-coated AuNPs of nominal diameter 20 nm on the growth and metastatic potential of 4T1 cells originated from a mouse mammary gland tumor inoculated into the mammary fat pad of Balb/ccmdb mice. To evaluate whether AuNPs can prevent the tumor growth, one group of inoculated mice was intragastrically (i.g.) administered with 1 mg/kg of AuNPs daily from day 1 to day 14 after cancer cell implantation. To evaluate whether AuNPs can attenuate the tumor growth, the second group was intravenously (i.v.) administered with 1 or 5 mg/kg of AuNPs, twice on day 5 and day 14 after inoculation. We did not observe any anticancer activity of i.v. nor i.g. administered AuNPs, as they did not affect neither the primary tumor growth rate nor the number of lung metastases. Unexpectedly, both AuNP treatment regimens caused a marked vasodilating effect in the tumor tissue. As no change of potential angiogenic genes (Fgf2, Vegfa) nor inducible nitric oxygenase (Nos2) was observed, we proposed that the vasodilation was caused by AuNP-dependent decomposition of nitrosothiols and direct release of nitric oxide in the tumor tissue.
Highlights
Over the last few decades, nanomaterials have emerged as promising tools in industry and medicine
The majority of toxicity studies revealed that AuNPs with a diameter greater than 4–5 nm are mostly non-toxic after acute exposures
We have previously showed that citrate-stabilized AuNPs decrease the clonogenicity of A549 lung cancer cells and HepG2 liver cancer cells in vitro
Summary
Over the last few decades, nanomaterials have emerged as promising tools in industry and medicine. Among the known organic and inorganic nanomaterials, gold nanoparticles (AuNPs) have attracted considerable attention for their potential applications in many areas of research and industry due to ease of their synthesis and modification. AuNPs are usually considered as drug carriers or radiosensitizing agents. We have previously showed that citrate-stabilized AuNPs decrease the clonogenicity of A549 lung cancer cells and HepG2 liver cancer cells in vitro. It was accompanied by changes in cell cycle distribution, gene expression, and miRNA expression [18,19]. For the first time observed a transient vasodilating effect of AuNPs on the tumor vasculature which should be taken into account during AuNP-based nanopharmaceuticals development
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