BACKGROUND: Oblimersen, an ODN targeting BCL-2 RNA, has been shown to be effective in reducing BCL-2 expression in vitro and in in vivo models engineered to overexpress BCL-2. The present study evaluated the efficacy of combining BCL-2 ODN and radiation in small-cell lung cancers (SCLC) cell lines. MATERIALS AND METHODS: The in vitro effect was determined using short term (cell viability) and long term (clonogenic) assays. Apoptosis, BCL-2 expression and intratumoural uptake of the FAM-ODN with or without prior radiation treatment were also evaluated. Combination of ODN and RT was also assessed in vivo. RESULTS: Radiation was shown to increase intracellular and intratumoural penetration of oblimersen, confirming previous results obtained in prostate cancer xenograft models. Oblimersen decreased BCL-2 protein expression in vitro and in vivo. BCL-2 ODN sensitised H69 cells to radiation in vitro and in vivo. Oblimersen increased radiation-induced apoptosis and decreased in vivo tumoural vascularisation. CONCLUSION: Oblimersen was shown to increase in vitro and in vivo effect of RT on SCLC cell lines. Radiation increases intracellular and intratumoural penetration of ODN. This pre-clinical study argues in favour of clinical development in localised SCLC.
BACKGROUND: Oblimersen, an ODN targeting BCL-2 RNA, has been shown to be effective in reducing BCL-2 expression in vitro and in in vivo models engineered to overexpress BCL-2. The present study evaluated the efficacy of combining BCL-2ODN and radiation in small-cell lung cancers (SCLC) cell lines. MATERIALS AND METHODS: The in vitro effect was determined using short term (cell viability) and long term (clonogenic) assays. Apoptosis, BCL-2 expression and intratumoural uptake of the FAM-ODN with or without prior radiation treatment were also evaluated. Combination of ODN and RT was also assessed in vivo. RESULTS: Radiation was shown to increase intracellular and intratumoural penetration of oblimersen, confirming previous results obtained in prostate cancer xenograft models. Oblimersen decreased BCL-2 protein expression in vitro and in vivo. BCL-2ODN sensitised H69 cells to radiation in vitro and in vivo. Oblimersen increased radiation-induced apoptosis and decreased in vivo tumoural vascularisation. CONCLUSION: Oblimersen was shown to increase in vitro and in vivo effect of RT on SCLC cell lines. Radiation increases intracellular and intratumoural penetration of ODN. This pre-clinical study argues in favour of clinical development in localised SCLC.
Authors: Gang Wang; Liang Xiao; Fen Wang; Jing Yang; Li Yang; Ye Zhao; Wensen Jin Journal: Radiat Environ Biophys Date: 2019-06-15 Impact factor: 1.925
Authors: Y Loriot; P Mordant; D Dugue; O Geneste; A Gombos; P Opolon; J Guegan; J-L Perfettini; A Pierre; L K Berthier; G Kroemer; J C Soria; S Depil; E Deutsch Journal: Cell Death Dis Date: 2014-09-18 Impact factor: 8.469
Authors: Rafal Goraczniak; Brian A Wall; Mark A Behlke; Kim A Lennox; Eric S Ho; Nikolas H Zaphiros; Christopher Jakubowski; Neil R Patel; Steven Zhao; Carlo Magaway; Stacey A Subbie; Lumeng Jenny Yu; Stephanie Lacava; Kenneth R Reuhl; Suzie Chen; Samuel I Gunderson Journal: Mol Ther Nucleic Acids Date: 2013-05-14 Impact factor: 10.183