posted on 2014-09-08, 00:00authored byJousheed Pennakalathil, Ermira Jahja, E. Sıla Özdemir, Özlen Konu, Dönüs Tuncel
Here we report the synthesis of nanoparticles
based on a conjugated
oligomer which is synthesized through Heck-coupling of divinylfluorene
and dibromobenzothiodiazole monomers. These water dispersible nanoparticles
emit in the region of red tailing to the near-infrared region of the
spectrum with high fluorescent quantum yield and brightness. The nanoparticles
were found to be stable in water for a prolonged time without forming
any aggregates and could carry camptothecin, an anticancer drug with
high loading efficiency. MTT cell viability studies performed with
breast cancer cell lines showed that half-maximal inhibitory concentration
(IC50) values of nanoparticles for MCF7 and MDA-MB-231
were 44.7 μM and 24.8 μM, respectively. In order to further
decrease the cytotoxicity and increase the stability of nanoparticles,
amine groups were disguised by capping with cucurbit[7]uril (CB7).
Drug release studies showed that drugs were released at low pH (at
5.0) faster than physiological pH (7.4) confirming the pH-responsive
nature of the nanoparticles. On the other hand, CB7-capped drug-loaded
nanoparticles regulated the release rate by providing slower release
at pH 7.4 than the nanoparticles in the absence of CB7s. IC50 values for camptothecin in the presence of nanoparticles with or
without CB7 were significantly reduced in MCF7 and MDA-MB-231 cells.