Abstract: Drug resistance as well as cellular proliferation and metastasis of cancer cells may be caused by high-concentration chemotherapeutics leading to the excess secretion of cytokine. In order to clean up those cytokine which could promote proliferation of cancer cells, we have synthesized N-butyl acrylate-4-hydroxybutyl acrylate amphiphilic copolymer to clad docetaxel loaded Fe3O4@ZnO core-shell nanocomposite as a multifunctional drug delivery. It is of great potential for our multifunctional drug delivery to be a targeted drug carrier in vivo because of its good biocompatibility and magnetic responsibility. Most importantly, a controllable drug release as well as epidermal growth factor adsorption behavior could be realized simultaneously by UV radiation in dark. In this way, the inhibition rate to HeLa cells was high than that of raw docetaxel experimental group. Therefore, a new mode of chemotherapy have been developed which have great potential in clinic use.
1 Siegel R L, Miller K D, Jemal A. Cancer statistics, 2016 [J]. CA Cancer J Clin,2016,66:7. 2 Chen W Q, Zheng R S, Baade P D, et al. Cancer statistics in China, 2015 [J]. CA Cancer J Clin,2016,66:115. 3 Sardain H, Lavoue V, Redpath M, et al. Curative pelvic exenteration for recurrent cervical carcinoma in the era of concurrent chemotherapy and radiation therapy: A systematic review [J]. Eur J Surg Onc,2015,41:975. 4 Huang L, Liao L M, Liu A W, et al. Analysis of the impact of pla-tinum-based combination chemotherapy in small cell cervical carcinoma: A multicenter retrospective study in Chinese patients [J]. BMC Cancer,2014,14:140. 5 Santabarbara G, Maione P, Rossi A, et al. Pharmacotherapeutic options for treating adverse effects of Cisplatin chemotherapy [J]. Expert Opin Pharmaco,2016,17:561. 6 Huang X, Wang X Y, Wang S C, et al. UV and dark-triggered repetitive release and encapsulation of benzophenone-3 from biocompatible ZnO nanoparticles potential for skin protection [J]. Nanoscale,2013,5:5596. 7 Huang X, Wu S S, Du X Z. Gated mesoporous carbon nanoparticles as drug delivery system for stimuli-responsive controlled release [J]. Carbon,2016,101:135. 8 Karimi M, Mirshekari H, Aliakbari M, et al. Smart mesoporous si-lica nanoparticles for controlled-release drug delivery [J]. Nanotechnol Rev,2016,5:195. 9 Chen Q, Liu X H, et al. Long non-coding RNA BACE1-AS is a novel target for anisomycin-mediated suppression of ovarian cancer stem cell proliferation and invasion [J]. Oncol Rep,2016,35:1916. 10 Eefsen R L, Englholm L, Wilemoe G L, et al. Microvessel density and endothelial cell proliferation levels in colorectal liver metastases from patients given neo-adjuvant cytotoxic chemotherapy and bevacizumab [J]. Int J Cancer,2016,138:1777. 11 Huang X, Lu J, et al. Fe3O4@ZnO core-shell nanocomposites for efficient and repetitive removal of low density lipoprotein in plasma and on blood vessel [J]. Nanotechnology,2015,26:125101. 12 Neugebauer D, Bury K, Biela T. Novel hydroxyl-functionalized caprolactone poly(meth)acrylates decorated with tert-butyl groups [J]. Macromolecules,2012,45:4989. 13 Huang X, Wang Z, Dai H. Docetaxel grafted magnetic nanoparticles as dual-therapeutic agentia for targeting perfusion therapy of urethral carcinoma [J]. J Nanopart Res,2014,16:2756. 14 Barett C, Mermut O. Polymer multilayer films with azobenzene for photoactive biosurfaces [J]. Abstr Pap Am Chem Soc,2005,229:U1107. 15 Huang Y, Dong R J, Zhu X Y, et al. Photo-responsive polymeric micelles [J]. Soft Matter,2014,10:6121. 16 Gohy J F, Zhao Y. Photo-responsive block copolymer micelles: Design and behavior [J]. Chem Soc Rev,2013,42:7117. 17 Qiu Y, Park K. Environment-sensitive hydrogels for drug delivery [J]. Adv Drug Deliver Rev,2012,64:49. 18 Toral C, Solano-Agama M C, Luna J, et al. Epidermal growth factor induces an increase in cell adhesion and an arrangement of actin skeleton in stress fibres in pituitary cultured cells from infantile rats but not adult rats [J]. J Cell Physiol,2003,195:80. 19 Boumet B, Buscail C, Muscari F, et al. Targeting KRAS for diagnosis, prognosis, and treatment of pancreatic cancer: Hopes and rea-lities [J]. Eur J Cancer,2016,54:75. 20 Vinogradov S, Wei X. Cancer stem cells and drug resistance: The potential of nanomedicine [J]. Nanomedicine,2012,7:597.
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2017, Vol. 31 
