Despite the fact that gold nanoparticles (GNPs) are one of the most studied nanoparticles, there is still a necessity for new approaches allowing for effective protective coating to enable wider use of GNPs in biomedical applications. This dissertation is focusing on the use of self-assembling peptide amphiphiles as stabilizers for spherical GNPs and gold nanorods (GNRs). Peptide amphiphiles stabilize GNPs and GNRs through formation of a self-assembled monolayer on their surface. These gold-peptide amphiphile conjugates are stable under (and beyond) physiologically relevant conditions, do not induce cytotoxicity, and can be readily modified with ligands of interest. To demonstrate the potential of these conjugates, they were used to study T-cell mediated immune responses as function of GNP size and shape. It was shown that GNRs deliver more antigen to the lysosomes and induce better T-helper responses, while larger particles were more effective at mediating antigen delivery to the cytosol, thus inducing better cytotoxic responses.

• gold nanoparticles
• gold nanorods
• ot-i ot-ii mice
• ovalbumin epitopes
• peptide amphiphiles
• peptide secondary structure
• self-assembly
• t-cell immune response
• transmission electron microscopy (tem)

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