%0 Journal Article %1 WOS:000330017100021 %A Paula, Amauri J %A Junior, Roberto T Araujo %A Martinez, Diego Stefani T %A Paredes-Gamero, Edgar J %A Nader, Helena B %A Duran, Nelson %A Justo, Giselle Z %A Alves, Oswaldo Luiz %C 1155 16TH ST, NW, WASHINGTON, DC 20036 USA %D 2013 %I AMER CHEMICAL SOC %J ACS APPLIED MATERIALS & INTERFACES %K albumin; biomolecules' bovine colloidal corona; delivery} drug interaction; nanoparticles; protein serum silica; {mesoporous %N 17 %P 8387-8393 %R 10.1021/am4014693 %T Influence of Protein Corona on the Transport of Molecules into Cells by Mesoporous Silica Nanoparticles %V 5 %X Although there are several studies reporting the promising biological efficiency of mesoporous silica nanoparticles (loaded with antitumoral drugs) against cancer cells and tumors, there are no reports on the influence of the bio-nano interface interactions on the molecular diffusion process occurring along their pores. In this context, we show here that the protein coating formed on multifunctionalized colloidal mesoporous silica nanoparticles (MSNs) dispersed in a cell culture medium decreases the release of camptothecin (CPT, a hydrophobic antitumoral drug) from the pores of MSNs. This effect is related to the adsorption of biomolecules on the nanoparticle surface, which partially blocks the pores. Parallely, the hydrophobic functionalization inside the pores can offer suitable sites for the adsorption of other molecules present in the cell culture medium depending on the hydrophobicity, size, and conformation aspects of these molecules and adsorption sites of MSNs. Thus, the molecular cargo loaded in the pores (i.e. CPT) can be replaced by specific molecules present in the dispersion medium. As a consequence, we show that a non-permeable cellular staining molecule such as SYTOX green can be incorporated in MSNs through this mechanism and internalized by cells in an artificial fashion. By extrapolating this phenomenon for applications. in vivo, one has to consider now the possible manifestation of unpredicted biological effects from the use of porous silica nanoparticles and others with similar structure due to these internalization aspects.

@article{WOS:000330017100021, abstract = {Although there are several studies reporting the promising biological efficiency of mesoporous silica nanoparticles (loaded with antitumoral drugs) against cancer cells and tumors, there are no reports on the influence of the bio-nano interface interactions on the molecular diffusion process occurring along their pores. In this context, we show here that the protein coating formed on multifunctionalized colloidal mesoporous silica nanoparticles (MSNs) dispersed in a cell culture medium decreases the release of camptothecin (CPT, a hydrophobic antitumoral drug) from the pores of MSNs. This effect is related to the adsorption of biomolecules on the nanoparticle surface, which partially blocks the pores. Parallely, the hydrophobic functionalization inside the pores can offer suitable sites for the adsorption of other molecules present in the cell culture medium depending on the hydrophobicity, size, and conformation aspects of these molecules and adsorption sites of MSNs. Thus, the molecular cargo loaded in the pores (i.e. CPT) can be replaced by specific molecules present in the dispersion medium. As a consequence, we show that a non-permeable cellular staining molecule such as SYTOX green can be incorporated in MSNs through this mechanism and internalized by cells in an artificial fashion. By extrapolating this phenomenon for applications. in vivo, one has to consider now the possible manifestation of unpredicted biological effects from the use of porous silica nanoparticles and others with similar structure due to these internalization aspects.}, added-at = {2022-05-23T20:00:14.000+0200}, address = {1155 16TH ST, NW, WASHINGTON, DC 20036 USA}, author = {Paula, Amauri J and Junior, Roberto T Araujo and Martinez, Diego Stefani T and Paredes-Gamero, Edgar J and Nader, Helena B and Duran, Nelson and Justo, Giselle Z and Alves, Oswaldo Luiz}, biburl = {https://www.bibsonomy.org/bibtex/2476364c3dc1986e0e4086a88171edd14/ppgfis_ufc_br}, doi = {10.1021/am4014693}, interhash = {2b1e7eeb52b641c750ab77badd2bbb1a}, intrahash = {476364c3dc1986e0e4086a88171edd14}, issn = {1944-8244}, journal = {ACS APPLIED MATERIALS & INTERFACES}, keywords = {albumin; biomolecules' bovine colloidal corona; delivery} drug interaction; nanoparticles; protein serum silica; {mesoporous}, number = 17, pages = {8387-8393}, publisher = {AMER CHEMICAL SOC}, pubstate = {published}, timestamp = {2022-05-23T20:00:14.000+0200}, title = {Influence of Protein Corona on the Transport of Molecules into Cells by Mesoporous Silica Nanoparticles}, tppubtype = {article}, volume = 5, year = 2013 }