Internalization of (bis)phosphonate-modified cellulose nanocrystals by human osteoblast cells |
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| Authors: | Selestina Gorgieva Vera Vivod Uroš Maver Lidija Gradišnik Jurij Dolenšek Vanja Kokol |
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| Institution: | 1.Institute of Engineering Materials and Design, Faculty of Mechanical Engineering,University of Maribor,Maribor,Slovenia;2.Faculty of Medicine, Institute of Biomedical Sciences,University of Maribor,Maribor,Slovenia;3.Faculty of Medicine, Institute of Physiology,University of Maribor,Maribor,Slovenia |
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| Abstract: | Covalent conjugation of (bis)phosphonate group-containing molecules, sodium Alendronate (Aln) and 3-AminoropylPhosphoric Acid (ApA), to Cellulose nanocrystals (CNCs) was performed via oxidation/Shiff-base reaction. Further fluorescent labelling with Rhodamine B Iso ThioCyanate (RBITC) was performed to follow CNCs interaction and potential internalization with/in human osteoblasts by confocal microscopy. Complementary analyses were applied to identify the conjugation (Atenuated Total Reflectance–Fourier Transform Infrared and UV–VIS spectroscopies), physico-chemical (Dynamic Light Scattering and Nanoparticle Tracking Analysis) and morphological (Transmission Electron Microscopy) features of native and ApA/Aln-modified CNCs in physiologically relevant environments (Phosphate Buffer Saline, Advanced Dulbecco’s Modified Eagle Medium). While conjugation did not affect the CNCs` size, the RBITC-labelling promotes their aggregation. Faster (1 h vs. 2 h) uptake by osteoblasts of RBITC-CNCoxAln, compared to RBITC-CNCoxApA, and no-internalization (in 24 h) of native RBITTC-CNC, indicate a higher affinity of Aln-modified CNCs to the cells, while all CNCs (in 0.25–0.06 wt%) promote the cell growth. Aln/Apa-modified CNCs shows high potential in drug-delivery for bone therapies, and theranostics. |
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