None of the AuNP-Es led to obvious

None of the AuNP-Es led to obvious cell toxicity compared to the control cells at this concentration. The intracellular distributions of the AuNP-Es after incubation for 1.5 h were observed by confocal laser microscopy (CLMS) (Figure S4). In this experiment, proteins were labeled with Alexa Fluor 647 for their visualization. CLMS data demonstrate that all AuNP-Es were internalized into cells and were distributed outside the nucleus.
The level of cellular uptake of the AuNP-Es was detected by inductively coupled plasma atomic emission spectroscopy (ICP-AES) (Figure 4 and Figure S5). ICP-AES data indicate that the number of NPs in a single cell was 25, 7.1, 4.1, and 1.1 × 104 NPs/cell for Rod-Es, Sphere20-Es, Sphere40-Es, and Cube-Es, respectively (Figure 4A). Rod-shaped AuNPs were the most efficiently internalized among the tested particles, with 20% of the total NPs in the medium internalized within 1.5 h. On the contrary, the cubic AuNPs were internalized least efficiently, with only 1.3% of the added NPs entering the cells. The physicochemical properties of NPs, such as surface charge and surface area, are known to influence the cellular uptake of the NPs by macrophages.(39-41) The surface area of rods is similar to that of Sphere20s, and the surface charge of rods is similar to that of cubes. This means that the level of cellular uptake does not simply depend on surface area or charge, rather that shape is another important factor in determining the level of uptake. We also confirmed that AuNPs without a layer of WNVE proteins entered cells in a similar manner to WNVE-coated AuNPs (Figure S5). Frenkel et al. reported the effect of the shape of nanoparticles on passive endocytosis using MD simulations and found that the efficiency of endocytosis of spherocylindrical particles (similar in shape to our rods) was higher than that of spherical particles.(42) Ghandehari et al. compared the level of cellular uptake of PEGylated rod (10 × 45 nm) and spherical nanoparticles (50 nm in diameter) by RAW 264.7 macrophages.(41) They reported that the nanorods were taken up to a lesser extent than were the spherical nanoparticles based on the “weight of nanoparticles” in cells. These results seem to be inconsistent with our data. However, as each Sphere40 is 15-fold heavier than each rod, Figure 4A shows that the Sphere40s were more efficiently internalized into cells than rods when compared in terms of the weight of nanoparticles in a single cell. However, it should be noted that the number of internalized rods was 6 times higher than that of Sphere40s, meaning that Rod-Es can deliver WNVE antigens more efficiently into macrophages. Since Sphere40-Es induced the highest level of antibodies, the trend in antibody production shown in Figure 3 cannot be explained by the number of internalized AuNP-Es. This implies that there is another factor beyond the amount of antigen internalized