AI Article Synopsis
- Nimotuzumab is a humanized monoclonal antibody that targets EGFR and was tested for its ability to increase cancer cells' sensitivity to radiation.
- In experiments with lung cancer (A549) and breast cancer (MCF-7) cells, treatment with nimotuzumab prior to radiation resulted in reduced survival of cancer cells, increased apoptosis, and enhanced DNA damage as measured by γ-H2AX foci.
- The study suggests that nimotuzumab enhances radiosensitivity by inhibiting the activation of DNA-PKcs, impacting DNA damage repair through the PI3K/AKT signaling pathway.
Article Abstract
Background: Nimotuzumab is a humanized IgG1 monoclonal antibody specifically targeting EGFR. In this study, we aimed to investigate the molecular mechanisms of nimotuzumab in its effects of enhancing cancer cell radiosensitivity.
Principal Finding: Lung cancer A549 cells and breast cancer MCF-7 cells were pretreated with or without nimotuzumab for 24 h before radiation to perform the clonogenic survival assay and to analyze the cell apoptosis by flow ctyometry. γ-H2AX foci were detected by confocal microscopy to assess the effect of nimotuzumab on radiation induced DNA repair. EGFR activation was examined and the levels of DNA damage repair related proteins in A549 cells at different time point and at varying doses exposure after nimotuzumab and radiation treatment were examined by Western blot. Pretreatment with nimotuzumab reduced clonogenic survival after radiation, inhibited radiation-induced EGFR activation and increased the radiation-induced apoptosis in both A549 cells and MCF-7 cells. The foci of γ-H2AX 24 h after radiation significantly increased in nimotuzumab pretreated cells with different doses. The phosphorylation of AKT and DNA-PKcs were remarkably inhibited in the combination group at each dose point as well as time point.
Conclusions: Our results revealed that the possible mechanism of nimotuzumab enhancing the cancer radiosensitivity is that nimotuzumab inhibited the radiation-induced activation of DNA-PKcs through blocking the PI3K/AKT pathway, which ultimately affected the DNA DSBs repair.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3745376 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0070727 | PLOS |
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