AI Article Synopsis
- * High cholesterol levels result in a protein corona that is enriched with apolipoproteins and has fewer complement proteins, leading to stronger inflammatory responses in macrophages and increased uptake in liver cells.
- * The study's in vivo results show that NPs are more effectively targeted to organs like the liver and brain in mice with hypercholesterolemia, highlighting how the metabolome can influence the efficacy and safety of nanomedicines and suggesting a potential for personalized treatment approaches.
Article Abstract
Nanoparticles (NPs) in biological fluids form a layer of biomolecules known as the protein corona. The protein corona has been shown to determine the biological identity and in vivo fate of NPs, but whether and how metabolites, especially disease-related small molecules, regulate the protein corona and subsequently impact NP fate in vivo is relatively poorly understood. Here we report on the effects of cholesterol on the generation of protein corona and subsequent effects. We find that high levels of cholesterol, as in hypercholesterolemia, result in a protein corona with enriched apolipoproteins and reduced complement proteins by altering the binding affinity of the proteins to the NPs. The cholesterol-mediated protein corona can induce stronger inflammatory responses to NPs in macrophages and promote the cellular uptake of NPs in hepatocytes by enhancing the recognition of lipoprotein receptors when compared with normal protein corona. The result of in vivo biodistribution assays shows that, compared with healthy mice, NPs in hypercholesterolemic mice were more likely to be delivered to the liver, spleen and brain, and less likely to be delivered to the lungs. Our findings reveal that the metabolome profile is an unexploited factor impacting the target efficacy and safety of nanomedicines, providing a way to develop personalized nanomedicines by harnessing disease-related metabolites.
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| http://dx.doi.org/10.1038/s41565-023-01455-7 | DOI Listing |
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