期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 23, 期 1, 页码 -出版社
MDPI
DOI: 10.3390/ijms23010155
关键词
magnetic nanoparticles; folate receptors; folic acid; PHEMA; SI-ATRP; tumor cell lines
资金
- Romanian Ministry of Education and Research, CNCS-UEFISCDI within PNCDI III [PN-III-P1-1.1-TE-2019-0922]
- Grigore T. Popa University of Medicine and Pharmacy Iasi [4716/25.02.2021]
Researchers have developed a magnetic nanocarrier with high specificity by decorating the surface of magnetic nanoparticles with poly(2-hydroxyethyl methacrylate) and covalently binding folic acid to the polymer. The biocompatibility and folate-dependent internalization capacity of the nanocarriers were tested on different cell lines, and the magnetic properties of the functionalized nanoparticles were highlighted using magnetic resonance imaging.
Targeted nanocarriers could reach new levels of drug delivery, bringing new tools for personalized medicine. It is known that cancer cells overexpress folate receptors on the cell surface compared to healthy cells, which could be used to create new nanocarriers with specific targeting moiety. In addition, magnetic nanoparticles can be guided under the influence of an external magnetic field in different areas of the body, allowing their precise localization. The main purpose of this paper was to decorate the surface of magnetic nanoparticles with poly(2-hydroxyethyl methacrylate) (PHEMA) by surface-initiated atomic transfer radical polymerization (SI-ATRP) followed by covalent bonding of folic acid to side groups of the polymer to create a high specificity magnetic nanocarrier with increased internalization capacity in tumor cells. The biocompatibility of the nanocarriers was demonstrated by testing them on the NHDF cell line and folate-dependent internalization capacity was tested on three tumor cell lines: MCF-7, HeLa and HepG2. It has also been shown that a higher concentration of folic acid covalently bound to the polymer leads to a higher internalization in tumor cells compared to healthy cells. Last but not least, magnetic resonance imaging was used to highlight the magnetic properties of the functionalized nanoparticles obtained.
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