Mesenchymal glioma stem cells (MES-GSCs) are a major subtype of GSCs that reside within glioma tissues and contribute to metastasis, therapy resistance, and glioma recurrence. However, the precise molecular mechanisms governing MES-GSC functions remain elusive. Our findings revealed that expression levels of miR-505-5p/-3p are elevated in MES-GSCs compared with those in proneural (PN)-GSCs, glioma cell lines, and normal brain tissue and that miR-505-5p/-3p expression levels are decreased in differentiated MES-GSCs. We assumed that miR-505-5p/-3p would play distinctive roles in MES-GSCs and performed loss-of-function experiments targeting miR-505-5p/-3p. Knockdown of miR-505-5p/-3p increased proliferation and promoted differentiation in MES-GSCs while suppressing invasion, temozolomide resistance, and enhancing apoptosis in MES-GSCs. Mechanistically, miR-505-5p/-3p directly targets the 3' UTR of AUF1, leading to its repression in MES-GSCs. Notably, AUF1 expression levels were significantly lower in MES-GSCs compared with those in PN-GSCs, glioma cell lines, and normal brain tissues. Co-inhibition of AUF1 expression with miR-505-5p/-3p knockdown ameliorated the observed cellular phenotypes caused by miR-505-5p/-3p knockdown in MES-GSCs. These results suggest that miR-505-5p/-3p exerts MES-GSC-specific roles in regulating proliferation, differentiation, invasion, apoptosis, and temozolomide resistance by repressing AUF1 expression.
Keywords: AU‐rich binding factor 1; mesenchymal glioma stem cells; microRNA‐505; posttranscriptional regulation.
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