AI Article Synopsis
- Radiation therapy is commonly used for treating glioblastoma (GBM), but its effectiveness is often hindered by issues like therapeutic resistance and tumor recurrence.
- Understanding the mechanisms behind this resistance could enhance treatment strategies for GBM patients.
- The study found that ionizing radiation activates a signaling pathway that increases CD44 expression, leading to cancer stemness and aggressive features in GBM cells, suggesting that targeting this pathway may improve treatment outcomes.
Article Abstract
Radiation therapy is a current standard-of-care treatment and is used widely for GBM patients. However, radiation therapy still remains a significant barrier to getting a successful outcome due to the therapeutic resistance and tumor recurrence. Understanding the underlying mechanisms of this resistance and recurrence would provide an efficient approach for improving the therapy for GBM treatment. Here, we identified a regulatory mechanism of CD44 which induces infiltration and mesenchymal shift of GBM. Ionizing radiation (IR)-induced K-RAS/ERK signaling activation elevates CD44 expression through downregulation of miR-202 and miR-185 expression. High expression of CD44 promotes SRC activation to induce cancer stemness and EMT features of GBM cells. In this study, we demonstrate that the K-RAS/ERK/CD44 axis is a key mechanism in regulating mesenchymal shift of GBM cells after irradiation. These findings suggest that blocking the K-RAS activation or CD44 expression could provide an efficient way for GBM treatment.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8539357 | PMC |
| http://dx.doi.org/10.3390/ijms222010923 | DOI Listing |
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