MiR-584-5p potentiates vincristine and radiation response by inducing spindle defects and DNA damage in medulloblastoma.
Nourhan AbdelfattahSubapriya RajamanickamSubbarayalu PanneerdossSantosh TimilsinaPooja YadavBenjamin C OnyeaguchaMichael GarciaRatna K VadlamudiYidong ChenAndrew BrennerPeter HoughtonManjeet K RaoPublished in: Nature communications (2018)
Despite improvements in overall survival, only a modest percentage of patients survives high-risk medulloblastoma. The devastating side effects of radiation and chemotherapy substantially reduce quality of life for surviving patients. Here, using genomic screens, we identified miR-584-5p as a potent therapeutic adjuvant that potentiates medulloblastoma to radiation and vincristine. MiR-584-5p inhibited medulloblastoma growth and prolonged survival of mice in pre-clinical tumor models. MiR-584-5p overexpression caused cell cycle arrest, DNA damage, and spindle defects in medulloblastoma cells. MiR-584-5p mediated its tumor suppressor and therapy-sensitizing effects by targeting HDAC1 and eIF4E3. MiR-584-5p overexpression or HDAC1/eIF4E3 silencing inhibited medulloblastoma stem cell self-renewal without affecting neural stem cell growth. In medulloblastoma patients, reduced expression of miR-584-5p correlated with increased levels of HDAC1/eIF4E3. These findings identify a previously undefined role for miR-584-5p/HDAC1/eIF4E3 in regulating DNA repair, microtubule dynamics, and stemness in medulloblastoma and set the stage for a new way to treat medulloblastoma using miR-584-5p.
Keyphrases
- dna damage
- dna repair
- end stage renal disease
- stem cells
- ejection fraction
- newly diagnosed
- chronic kidney disease
- cell cycle arrest
- prognostic factors
- oxidative stress
- early stage
- cell proliferation
- dna methylation
- squamous cell carcinoma
- induced apoptosis
- radiation therapy
- signaling pathway
- high throughput
- adipose tissue
- metabolic syndrome
- transcription factor
- radiation induced
- patient reported