Enhanced Intracellular Translocation of Gold Nanoparticles Functionalized with TAT Peptide into Cancer Cell Lines
Reduced toxicity and ease of modification make gold nanoparticles (GNPs) suitable for targeted delivery and bioimaging via conjugating cell-penetrating peptides (CPPs). This study aimed to assess the enhanced penetration of gold nanoparticles into cells via using TAT peptide as a cell-penetrating peptide.
Gold nanoparticles and TAT-conjugated gold nanoparticles (TAT-C-GNP) were characterized using ultraviolet-visible spectrophotometry, dynamic light scattering, zeta potential method, and transmission electron microscopy. The cytotoxicity effects of nanoparticles on HeLa, and A431 cell lines were studied. Uptake of TAT-conjugated gold nanoparticles was tested in cells, using dark field microscopy.
Gold nanoparticles and TAT-conjugated gold nanoparticles had little to no effect on cell viability. Upon exposure to gold nanoparticles, TAT-conjugated gold nanoparticles displayed higher uptake than gold nanoparticles in A431 cell line; whereas none of the nanoparticles showed penetration in HeLa cell.
Thus, TAT-conjugated gold nanoparticles have enhanced cellular internalization and are suitable for various biomedical applications as nanoconjugates.
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