PURPOSE: Pancreatic cancer continues to pose an enormous challenge to clinicians and cancer scientists. Clinical studies show that tumor necrosis factor-related apoptosis- inducing ligand (TRAIL) exerts a potent and tumor-specific proapoptotic activity. However, most pancreatic cancer cells are resistant to TRAIL therapy. Human somatostatin receptor gene 2 (hSSTr2) is lost in 90% of pancreatic carcinoma. Oncolytic viruses are able to selectively lyse cancer cells and represent a promising novel anticancer therapy. Here, we investigated whether oncolytic adenovirus-mediated reexpression of hSSTr2 would enhance TRAIL-induced antitumor efficacy against pancreatic cancer. EXPERIMENTAL DESIGN: The antitumor efficacies of combined or single treatment of hSSTr2 and TRAIL mediated by oncolytic adenovirus were compared in pancreatic cancer cell culture and xenografts. The mechanisms involved in hSSTr2-induced sensitization to TRAIL were studied. RESULTS: Oncolytic adenovirus-mediated reexpression of hSSTr2 potentiated TRAIL-induced tumor growth inhibition in vitro and in vivo. Reexpression of hSSTr2 augmented TRAIL-induced apoptosis against pancreatic cancer cells via up-regulation of death receptor 4 and down-regulation of Bcl-2. CONCLUSIONS: hSSTr2 restoration mediated by oncolytic adenovirus enhances TRAIL-induced antitumor efficacy against pancreatic cancer. Combined treatment with oncolytic adenovirus-mediated hSSTr2 and TRAIL gene provides the rationale for a clinical trial in pancreatic cancer.
PURPOSE:Pancreatic cancer continues to pose an enormous challenge to clinicians and cancer scientists. Clinical studies show that tumor necrosis factor-related apoptosis- inducing ligand (TRAIL) exerts a potent and tumor-specific proapoptotic activity. However, most pancreatic cancer cells are resistant to TRAIL therapy. Human somatostatin receptor gene 2 (hSSTr2) is lost in 90% of pancreatic carcinoma. Oncolytic viruses are able to selectively lyse cancer cells and represent a promising novel anticancer therapy. Here, we investigated whether oncolytic adenovirus-mediated reexpression of hSSTr2 would enhance TRAIL-induced antitumor efficacy against pancreatic cancer. EXPERIMENTAL DESIGN: The antitumor efficacies of combined or single treatment of hSSTr2 and TRAIL mediated by oncolytic adenovirus were compared in pancreatic cancer cell culture and xenografts. The mechanisms involved in hSSTr2-induced sensitization to TRAIL were studied. RESULTS: Oncolytic adenovirus-mediated reexpression of hSSTr2 potentiated TRAIL-induced tumor growth inhibition in vitro and in vivo. Reexpression of hSSTr2 augmented TRAIL-induced apoptosis against pancreatic cancer cells via up-regulation of death receptor 4 and down-regulation of Bcl-2. CONCLUSIONS:hSSTr2 restoration mediated by oncolytic adenovirus enhances TRAIL-induced antitumor efficacy against pancreatic cancer. Combined treatment with oncolytic adenovirus-mediated hSSTr2 and TRAIL gene provides the rationale for a clinical trial in pancreatic cancer.
Authors: Courtney J Balentine; David H Berger; Shi-He Liu; Changyi Chen; John Nemunaitis; F Charles Brunicardi Journal: World J Surg Date: 2011-08 Impact factor: 3.352