posted on 2014-08-04, 00:00authored byAniruddha Roy, Mami Murakami, Mark J. Ernsting, Bryan Hoang, Elijus Undzys, Shyh-Dar Li
Taxanes
are a class of anticancer agents with a broad spectrum
and have been widely used to treat a variety of cancer. However, its
long-term use has been hampered by accumulating toxicity and development
of drug resistance. The most extensively reported mechanism of resistance
is the overexpression of P-glycoprotein (Pgp). We have developed a
PEGylated carboxymethylcellulose conjugate of docetaxel (Cellax),
which condenses into ∼120 nm nanoparticles. Here we demonstrated
that Cellax therapy did not upregulate Pgp expression in MDA-MB-231
and EMT-6 breast tumor cells, whereas a significant increase in Pgp
expression was measured with native docetaxel (DTX) treatment. Treatment
with DTX led to 4–7-fold higher Pgp mRNA expression and 2-fold
higher Pgp protein expression compared with Cellax treatment in the
in vitro and in vivo system, respectively. Cellax also exhibited significantly
increased efficacy compared with that of DTX in a taxane-resistant
breast tumor model. Against the highly Pgp expressing EMT6/AR1 cells,
Cellax exhibited a 6.5 times lower IC50 compared with that
of native DTX, and in the in vivo model, Cellax exhibited 90% tumor
growth inhibition, while native DTX had no significant antitumor activity.