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BSA Adsorption on Titanium Dioxide Nanoparticle Surfaces for Controlling Their Cellular Uptake in Skin Cells
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Document Title
BSA Adsorption on Titanium Dioxide Nanoparticle Surfaces for Controlling Their Cellular Uptake in Skin Cells
Author
Thiramanas R. Wongngam Y. Supanakorn G. Polpanich D.
Affiliations
National Nanotechnology Center (NANOTEC) National Science and Technology Development Agency (NSTDA) Pathum Thani 12120 Thailand
Type
Article
Source Title
ACS Applied Bio Materials
ISSN
25766422
Year
2024
Volume
7
Issue
3
Page
1713-1722
Open Access
All Open Access Hybrid Gold
Publisher
American Chemical Society
DOI
10.1021/acsabm.3c01138
Abstract
Nanoparticles (NPs) are continuously being developed for many applications including imaging biomedicine and everyday products. It is difficult to avoid contact with NPs such as titanium dioxide (TiO2) NPs which are widely used in sunscreens. However the safety of TiO2 NPs for skin contact and inhalation remains controversial. If NPs cannot penetrate the skin they will be unable to circulate in the bloodstream accumulate in the body or cause side effects ensuring their safety. Therefore this study aimed to modify TiO2 NP surfaces to inhibit their uptake in skin cells. Inspired by protein corona studies bovine serum albumin (BSA) was chosen to functionalize TiO2 NP surfaces via physical adsorption. The maximum BSA adsorption occurred at pH 5.0. The physicochemical properties (size ?-potential morphology ultraviolet (UV) absorption efficiency and sun protection factor (SPF)) of TiO2-BSA NPs were comparable to those of TiO2 NPs indicating that these properties did not affect cellular uptake. In the safety evaluation TiO2 NPs and TiO2-BSA NPs exhibited high biocompatibility with skin cells and no phototoxicity after UVA and UVB irradiation. In the efficacy evaluation both NPs possessed the same photoprotection abilities reducing membrane damage and DNA breakage after UVA irradiation. Compared with TiO2 NPs TiO2-BSA NPs showed substantially reduced skin penetration in Franz diffusion cells (91%) and human immortalized keratinocyte (HaCaT) cells (89%). A qualitative cellular uptake study using transmission electron microscopy and confocal laser scanning microscopy confirmed that TiO2 NPs were more abundant than TiO2-BSA NPs inside the HaCaT cells. These findings indicate that TiO2 surface functionalization with BSA inhibits cellular uptake in skin cells while maintaining safety and UV protection efficacy which might be extended to other NP-based sunscreens. ? 2024 The Authors. Published by American Chemical Society.
License
CC BY
Rights
Authors
Publication Source
WOS