1. Miat and interacting protein Metadherin maintain a stem-like niche to promote medulloblastoma tumorigenesis and treatment resistance.
- Author
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Peng, Kai-Lin, Vasudevan, Harish N, Lockney, Dennis T, Baum, Rachel, Hendrickson, Ronald C, Raleigh, David R, and Schmitt, Adam M
- Subjects
Humans ,Medulloblastoma ,Cerebellar Neoplasms ,RNA-Binding Proteins ,Membrane Proteins ,MicroRNAs ,RNA ,Long Noncoding ,Carcinogenesis ,Metadherin ,Miat ,long noncoding RNA ,medulloblastoma ,Genetics ,Brain Disorders ,Brain Cancer ,Stem Cell Research ,Stem Cell Research - Nonembryonic - Human ,Rare Diseases ,Cancer ,Stem Cell Research - Nonembryonic - Non-Human ,Aetiology ,2.1 Biological and endogenous factors - Abstract
Long noncoding RNAs (lncRNAs) play essential roles in the development and progression of many cancers. However, the contributions of lncRNAs to medulloblastoma (MB) remain poorly understood. Here, we identify Miat as an lncRNA enriched in the sonic hedgehog group of MB that is required for maintenance of a treatment-resistant stem-like phenotype in the disease. Loss of Miat results in the differentiation of tumor-initiating, stem-like MB cells and enforces the differentiation of tumorigenic stem-like MB cells into a nontumorigenic state. Miat expression in stem-like MB cells also facilitates treatment resistance by down-regulating p53 signaling and impairing radiation-induced cell death, which can be reversed by therapeutic inhibition of Miat using antisense oligonucleotides. Mechanistically, the RNA binding protein Metadherin (Mtdh), previously linked to resistance to cytotoxic therapy in cancer, binds to Miat in stem-like MB cells. Like the loss of Miat, the loss of Mtdh reduces tumorigenicity and increases sensitivity to radiation-induced death in stem-like MB cells. Moreover, Miat and Mtdh function to regulate the biogenesis of several microRNAs and facilitate tumorigenesis and treatment resistance. Taken together, these data reveal an essential role for the lncRNA Miat in sustaining a treatment-resistant pool of tumorigenic stem-like MB cells.
- Published
- 2022