4.7 Article

Knockdown of NAT12/NAA30 reduces tumorigenic features of glioblastoma-initiating cells

期刊

MOLECULAR CANCER
卷 14, 期 -, 页码 -

出版社

BMC
DOI: 10.1186/s12943-015-0432-z

关键词

N-terminal acetyltransferases; NAA30; NAT12; hMAK3; Glioblastoma; Glioma; GICs; GSCs; NSCs and HIF1 alpha

资金

  1. SFI-CAST
  2. Norwegian Research Council

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Background: Glioblastoma (GBM) is the most common primary brain malignancy and confers a dismal prognosis. GBMs harbor glioblastoma-initiating cells (GICs) that drive tumorigenesis and contribute to therapeutic resistance and tumor recurrence. Consequently, there is a strong rationale to target this cell population in order to develop new molecular therapies against GBM. Accumulating evidence indicates that N alpha-terminal acetyltransferases (NATs), that are dysregulated in numerous human cancers, can serve as therapeutic targets. Methods: Microarrays were used to study the expression of several NATs including NAT12/NAA30 in clinical samples and stem cell cultures. The expression of NAT12/NAA30 was analyzed using qPCR, immunolabeling and western blot. We conducted shRNA-mediated knockdown of NAT12/NAA30 gene in GICs and studied the effects on cell viability, sphere-formation and hypoxia sensitivity. Intracranial transplantation to SCID mice enabled us to investigate the effects of NAT12/NAA30 depletion in vivo. Using microarrays we identified genes and biochemical pathways whose expression was altered upon NAT12/NAA30 down-regulation. Results: While decreased expression of the distal 3'UTR of NAT12/NAA30 was generally observed in GICs and GBMs, this gene was strongly up-regulated at the protein level in GBM and GICs. The increased protein levels were not caused by increased levels of the steady state mRNA but rather by other mechanisms. Also, shorter 3'UTR of NAT12/NAA30 correlated with poor survival in glioma patients. As well, we observed previously not described nuclear localization of this typically cytoplasmic protein. When compared to non-silencing controls, cells featuring NAT12/NAA30 knockdown exhibited reduced cell viability, sphere-forming ability, and mitochondrial hypoxia tolerance. Intracranial transplantation showed that knockdown of NAT12/NAA30 resulted in prolonged animal survival. Microarray analysis of the knockdown cultures showed reduced levels of and altered expression of several other genes involved in the hypoxia response. Furthermore, NAT12/NAA30 knockdown correlated with expressional dysregulation of genes involved in the p53 pathway, ribosomal assembly and cell proliferation. Western blot analysis revealed reduction of HIF1 alpha, phospho-MTOR(Ser2448) and higher levels of p53 and GFAP in these cultures. Conclusion: NAT12/NAA30 plays an important role in growth and survival of GICs possibly by regulating hypoxia response (HIF1 alpha), levels of p-MTOR (Ser2448) and the p53 pathway.

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