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已发表论文
提高自组装的槲皮素的抗结肠癌活性
Authors Xu GY, Shi HS, Ren LB, Gou HF, Gong DY, Gao X, Huang N
Published Date March 2015 Volume 2015:10 Pages 2051—2063
DOI http://dx.doi.org/10.2147/IJN.S75550
Received 8 October 2014, Accepted 28 November 2014, Published 16 March 2015
Abstract: Colorectal cancer, a type of malignant neoplasm originating from the
epithelial cells lining the colon and/or rectum, has been the third most
frequent malignancy and one of the leading causes of cancer-related deaths in
the US. As a bioflavonoid with high anticancer potential, quercetin (Qu) has
been proved to have a prospective applicability in chemotherapy for a series of
cancers. However, quercetin is a hydrophobic drug, the poor hydrophilicity of
which hinders its clinical usage in cancer therapy. Therefore, a strategy to
improve the solubility of quercetin in water and/or enhance the bioavailability
is desired. Encapsulating the poorly water-soluble, hydrophobic agents into
polymer micelles could facilitate the dissolution of drugs in water. In our
study, nanotechnology was employed, and quercetin was encapsulated into the
biodegradable nanosized amphiphilic block copolymers of monomethoxy
poly(ethylene glycol)–poly(ε-caprolactone) (MPEG–PCL), attempting to present
positive evidences that this drug delivery system of polymeric micelles is
effective. The quercetin-loaded MPEG–PCL nanomicelles (Qu-M), with a high drug
loading of 6.85% and a minor particle size of 34.8 nm, completely dispersed in
the water and released quercetin in a prolonged period in vitro and in vivo. At
the same time, compared with free quercetin, Qu-M exhibited improved apoptosis induction
and cell growth inhibition effects in CT26 cells in vitro. Moreover, the mice
subcutaneous CT26 colon cancer model was established to evaluate the therapy
efficiency of Qu-M in detail, in which enhanced anti-colon cancer effect was
proved in vivo: Qu-M were more efficacious in repressing the growth of colon
tumor than free quercetin. In addition, better effects of Qu-M on inducing cell
apoptosis, inhibiting tumor angiogenesis, and restraining cell proliferation
were observed by immunofluorescence analysis. Our study indicated that Qu-M
were a novel nanoagent of quercetin with an enhanced antitumor activity, which
could serve as a promising potential candidate for colon cancer chemotherapy.
Keywords: quercetin, nanoformulation, colon cancer, cell apoptosis, angiogenesis
Keywords: quercetin, nanoformulation, colon cancer, cell apoptosis, angiogenesis
