posted on 2018-02-04, 00:00authored byXing Liu, Wenhao Li, Tijia Chen, Qin Yang, Ting Huang, Yao Fu, Tao Gong, Zhirong Zhang
Glioblastoma multiforme (GBM), a
prevalent brain cancer with high
mortality, is resistant to the conventional single-agent chemotherapy.
In this study, we employed a combination chemotherapy strategy to
inhibit GBM growth and addressed its possible beneficial effects.
The synergistic effect of lauroyl-gemcitabine (Gem-C12)
and honokiol (HNK) was first tested and optimized using U87 cells
in vitro. Then, the hyaluronic acid-grafted micelles (HA-M), encapsulating
the optimal mole ratio (1:1) of Gem-C12 and HNK, were prepared
and characterized. Cell-based studies demonstrated that HA-M could
be transported into cells by a CD44 receptor-mediated endocytosis,
which could penetrate deeper into tumor spheroids and enhance the
cytotoxicity of payloads to glioma cells. In vivo, drug-loaded HA-M
significantly increased the survival rate of mice bearing orthotopic
xenograft GBM compared with the negative control (1.85-fold). Immunohistochemical
analysis indicated that the enhanced efficacy of HA-M was attributed
to the stronger inhibition of glioma proliferation and induction of
apoptosis. Altogether, our findings showed advantages of combination
chemotherapy of GBM using HA-grafted micelles.