Resistance to anthracyclines and other chemotherapeutics due to P-glycoprotein (PGP)-mediated export is a frequent problem in cancer treatment. Here we report that iron oxide-titanium dioxide core-shell nanocomposites can serve as efficient carriers for doxorubicin to overcome this common mechanism of drug resistance in cancer cells. Doxorubicin nanocarriers (DNCs) increased effective drug uptake in drug-resistant ovarian cells. Mechanistically, doxorubicin bound to the TiO2 surface by a labile bond that was severed upon acidification within cell endosomes. Upon its release doxorubicin traversed the intracellular milieu and entered the cell nucleus by a route that evaded PGP-mediated drug export. Confocal and x-ray fluorescence microscopy with flow cytometry were used to demonstrate the ability of DNC to modulate transferrin uptake and distribution in cells. Increased transferrin uptake occurred through clathrin-mediated endocytosis, indicating that nanocomposites and DNCs may both interfere with removal of transferrin from cells. Together, our findings show that DNCs not only provide an alternative route of delivery of doxorubicin to PGP-over-expressing cancer cells, but may also boost the uptake of transferrin-tagged therapeutic agents.
- Received September 4, 2011.
- Revision received November 15, 2011.
- Accepted November 15, 2011.
- Copyright © 2011, American Association for Cancer Research.