Erschienen in:
01.01.2011 | Original Paper
Therapeutic effects of survivin dominant negative mutant in a mouse model of prostate cancer
verfasst von:
Li Pan, Xing-Chen Peng, Fei Leng, Qing-Zhong Yuan, Yan Shan, Dan-Dan Yu, Zhi-Yong Li, Xiang Chen, Wen-Jing Xiao, Yuan Wen, Tian-Tai Ma, Li Yang, Yong-Qiu Mao, Han-Shuo Yang, Yu-Quan Wei, Chun-Ting Wang
Erschienen in:
Journal of Cancer Research and Clinical Oncology
|
Ausgabe 1/2011
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Abstract
Purpose
Patients with localized prostate cancer can usually achieve initial response to conventional treatment. However, most of them will inevitably progress to advanced disease stage. There is a clear need to develop innovative and effective therapeutics for prostate cancer. Mouse survivin T34A (mS-T34A) is a phosphorylation-defective Thr34 → Ala dominant negative mutant, which represents a potential promising target for cancer gene therapy. This study was designed to determine whether mS-T34A plasmid encapsuled by DOTAP-chol liposome (Lip-mS) has the anti-tumor activity against prostate cancer, if so, to further investigate the possible mechanisms.
Methods
In vitro, TRAMP-C1 cells were transfected with Lip-mS and examined for apoptosis by PI staining and flow cytometric analysis. In vivo, subcutaneous prostate cancer models were established in C57BL/6 mice, which were randomly assigned into three groups to receive i.v. administrations of Lip-mS, pVITRO2-null plasmid complexed with DOTAP-chol liposome (Lip-null) or normal saline every 2 days for eight doses. Tumor volume was measured. Tumor tissues were inspected for apoptosis by TUNEL assay. Microvessel density (MVD) was determined by CD31 immunohistochemistry. Alginate-encapsulated tumor cell test was conducted to evaluate the treatment effect on angiogenesis.
Results
Administration of Lip-mS resulted in significant inhibition in the growth of mouse TRAMP-C1 tumors. The anti-tumor response was associated with increased tumor cell apoptosis and decreased microvessel density.
Conclusions
The present study may be of importance in the exploration of the potential application of Lip-mS in the treatment of a broad spectrum of tumors.