Abstract B38: Radiation enhances intracellular delivery of anti-MGMT oligomers to reduce protein expression in vitro and in a xenograft model

In this study, we investigate the enhanced delivery of anti-MGMT morpholino oligonucleotide (AMON) using a sub-therapeutic dose of radiation to reduce MGMT expression of human cancer cells (T98G glioma and H460 and A549 non-small cell lung carcinoma) in vitro and in vivo. Compared to standard transfection techniques, sub-therapeutic dose of radiation enhanced intracellular AMON delivery and transiently reduced MGMT protein expression at 3 d in vitro. The optimal radiation dosage was cancer cell type dependent and ranged from 1-12 Gy. In addition, AMON delivered using sub-therapeutic dose of radiation increased cytotoxicity of T98G cells in response to temozolomide compared to radiation and temozolomide alone in vitro. In a H460 subcutaneous xenograft tumor model, intravenous AMON administration reduced MGMT protein level by 50% in irradiated tumors but not in contralateral non-irradiated lesions within the same animal. Tumor MGMT protein downregulation by AMON did not alter DNA promoter methylation status. Our results demonstrate for the first time the use of radiation to enhance the intracellular delivery of antisense oligonucleotides to modulate MGMT protein expression in vitro and in vivo. We have previously shown that antisense nucleotides can be delivered to the brain parenchyma using osmotic blood brain barrier disruption. Therefore, we believe that cancer patients with MGMT overexpression, unmethylated DNA promoter and/or resistance to DNA alkylating agents may benefit...
Source: Molecular Cancer Research - Category: Cancer & Oncology Authors: Tags: Therapies Targeting Checkpoints and Mismatch Repair: Poster Presentations - Proffered Abstracts Source Type: research