Abstract
Meningiomas are the most common primary brain tumor reported in the United States each year and account for approximately 30% of primary neoplasms. Though in most cases the etiology of meningiomas is unclear, prior exposure to radiation is responsible for a subset of meningiomas. Some have speculated that there may be a relationship between pretreatment characteristics and radiotherapy parameters in the development of radiation-induced meningiomas (RIM). Compared with their sporadic counterparts, currently, the clinical treatment involves is similar with radiation used as a first line therapy. Novel therapeutic agents being investigated in the treatment of these tumors, rely on the direct or cell cycle-mediated induction of DNA damage to promote cellular apoptosis. Our pre-clinical data showed that disruption of p16INK4a-Cdk4-Rb (retinoblastoma) pathways plays a significant role in the development of RIM in Rb+ low-gradelow-grade meningioma cells. These observations highlight the critical role of the p16INK4a-Cdk4-Rb pathway in RIM and suggest that targeting this pathway might be a promising strategy to improve the therapeutic efficacy among RIM patients. Pretreatment characteristics and radiotherapy parameters which may influence the time interval for development of radiation-induced Rb+ meningiomas (RIM) were identified. Our results also demonstrated that CDK 4/6 Inhibitor, significantly suppresses radiation induced malignant transformation and prolonged survival in a cell-free, slice culture model and xenograft model of meningioma. Success of the proposed therapeutic strategies in both in vitro and in vivo models may form the basis for future research.from Cancer via ola Kala on Inoreader http://ift.tt/2zAW2bu
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