Jieke Yan1, Yuzhen Wang2, Yuxiu Jia3, Shuangde Liu1, Chuan Tian1, Wengu Pan1, Xiaoli Liu1, Hongwei Wang4. 1. Department of Renal Transplantation, The Second Hospital of Shandong University, Ji'nan 250033, Shandong, PR China. 2. Clinical Department, Jinan Vocation College of Nursing, Ji'nan 250102, Shandong, PR China. 3. Research Department, The Second Hospital of Shandong University, Ji'nan 250033, Shandong, PR China. 4. Department of Renal Transplantation, The Second Hospital of Shandong University, Ji'nan 250033, Shandong, PR China. Electronic address: wanghongweisdu@163.com.
Abstract
PURPOSE: Combination therapy is increasingly used as a primary cancer treatment regimen. In this report, we designed EGFR peptide decorated nanoparticles (NPs) to co-deliver docetaxel (DTX) and pH sensitive curcumin (CUR) prodrug for the treatment of prostate cancer. RESULTS: EGFR peptide (GE11) targeted, pH sensitive, DTX and CUR prodrug NPs (GE11-DTX-CUR NPs) had an average diameter of 167nm and a zeta potential of -37.5mV. The particle size of the NPs was adequately maintained in serum and a sustained drug release pattern was observed. Improved inhibition of cancer cell and tumor tissue growth was shown in the GE11-DTX-CUR NPs group compared to the other groups. CONCLUSION: It can be summarized that DTX and CUR prodrug could be delivered into tumor cells simultaneously by the GE 11 targeting and the EPR effect of NPs. The resulting GE11-DTX-CUR NPs is a promising system for the synergistic antitumor treatment of prostate cancer.
PURPOSE: Combination therapy is increasingly used as a primary cancer treatment regimen. In this report, we designed EGFR peptide decorated nanoparticles (NPs) to co-deliver docetaxel (DTX) and pH sensitive curcumin (CUR) prodrug for the treatment of prostate cancer. RESULTS:EGFR peptide (GE11) targeted, pH sensitive, DTX and CUR prodrug NPs (GE11-DTX-CUR NPs) had an average diameter of 167nm and a zeta potential of -37.5mV. The particle size of the NPs was adequately maintained in serum and a sustained drug release pattern was observed. Improved inhibition of cancer cell and tumor tissue growth was shown in the GE11-DTX-CUR NPs group compared to the other groups. CONCLUSION: It can be summarized that DTX and CUR prodrug could be delivered into tumor cells simultaneously by the GE 11 targeting and the EPR effect of NPs. The resulting GE11-DTX-CUR NPs is a promising system for the synergistic antitumor treatment of prostate cancer.