Journal of Experimental & Clinical Cancer Research (Mar 2009)

Suppression of lung cancer in murine model: treated by combination of recombinant human endostsatin adenovirus with low-dose cisplatin

  • Li Qiu,
  • Liu Ji Y,
  • Hu Bing,
  • Su Jing M,
  • Luo Yan,
  • Liu Kang,
  • Wang Yong S,
  • Wei Yu Q,
  • Xie Ke,
  • Liu Quan,
  • Wu Yang,
  • Bai Rui Z,
  • Niu Ting,
  • Zhao Zhi W,
  • Yang Li

DOI
https://doi.org/10.1186/1756-9966-28-31
Journal volume & issue
Vol. 28, no. 1
p. 31

Abstract

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Abstract Background The sustained growth of tumors necessitates neovascularization. As one of the potent endogenous vascular inhibitors, endostatin has been widely used in antiangiogenesis therapy for tumor. Cisplatin is normally administered in chemotherapy for lung cancer but accompanied with serious side effects. In the current study, we investigated a novel chemo-antiangiogenesis therapeutic strategy to both improve toxic effects on lung cancer cells and reduce damages to normal cells in the anti-tumor therapy. Methods In vitro, we transduced LLC cells with Ad-hEndo and collected supernatants. Western blotting analysis of the supernatants revealed expression of endostatin. In vivo, to fully investigate the suppression effect on murine lung cancer of the combination therapy, we injected recombinant human endostatin adenovirus intratumorally plus a low dose of cisplatin intraperitoneally routinely. The tumor volume and survival time were observed. Angiogenesis was apparently inhibited within the tumor tissues and on the alginate beads. Assessment of apoptotic cells by the TUNEL assay was conducted in the tumor tissues. Results The combination treatment significantly suppressed the tumor growth and prolonged survival time of the murine LLC tumor model. This anti-tumor activity was associated with decreased microvessel density and increased apoptotic index of tumor cells. Conclusion According to the results in this study, recombinant human endostatin adenovirus in combination with a low dose of cisplatin demonstrated apparent synergistic anti-tumor activity without marked toxicity. Thus, these observations may provide a rational alternative for lung cancer treatment.