Cellular uptake and toxicity of gold nanoparticles on two distinct hepatic cell models

Gold nanoparticles (AuNPs) have huge potential for various biomedical applications, but their successful use depends on their uptake and possible toxicity in the liver, their main site for accumulation. Therefore, in this work we compared the cytotoxic effects induced by AuNPs with different size (similar to 15 nm and 60 nm), shape (nanospheres and nanostars) and capping [citrate- or 11-mercaptoundecanoic acid (MUA)], in human HepaRG cells or primary rat hepatocytes (PRH) cultivated with serum-free or Foetal Bovine Serum (FBS)-supplemented media. The safety assessment of the AuNPs demonstrated that overall they present low toxicity towards hepatic cells. Among all the tested AuNPs, the smaller 15 nm spheres displayed the highest toxicity. The toxicological effect was capping, size and cell-type dependent with citrate-capping more toxic than MUA (PRH with FBS), the 15 nm AuNPs more toxic than 60 nm counterparts and PRH more sensitive, as compared to the HepaRG cells. The incubation with FBS-free media produced aggregation of AuNPs while its presence greatly influenced the toxicity outcomes. The cellular uptake of AuNPs was shape, size and capping dependent in PRH cultivated in FBS-supplemented media, and significantly different between the two types of cells with extensively higher internalization of AuNPs in PRH, as compared to the HepaRG cells. These data show that the physical-chemical properties of AuNPs, including size and shape, as well as the type of cellular model, greatly influence the interaction of the AuNPs with the biological environment and consequently, their toxicological effects.

Automated summary

The study compared the cytotoxic effects of gold nanoparticles with different size, shape, and capping on liver cells, finding that smaller 15 nm spheres displayed the highest toxicity. Toxicological effects were influenced by capping, size, and cell type, with citrate-capped nanoparticles more toxic than MUA, 15 nm nanoparticles more toxic than 60 nm ones, and primary rat hepatocytes more sensitive than HepaRG cells. The presence of FBS significantly influenced toxicity outcomes, with higher internalization of AuNPs in PRH compared to HepaRG cells.