Journal
NATURE CELL BIOLOGY
Volume 18, Issue 9, Pages 954-966Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/ncb3396
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Funding
- US National Cancer Institute [R01CA157933, R01CA182684, R01CA152309, P50CA127001, R01CA195651, CA16672]
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Emerging evidence has shown that GSK3 beta plays oncogenic roles in multiple tumour types; however, the underlying mechanisms remain largely unknown. Here, we show that nuclear GSK3 beta is responsible for the accumulation of the histone demethylase KDM1A and critically regulates histone H3K4 methylation during tumorigenesis. GSK3 beta phosphorylates KDM1A Ser683 upon priming phosphorylation of KDM1A Ser687 by CK1 alpha. Phosphorylation of KDM1A induces its binding with and deubiquitylation by USP22, leading to KDM1A stabilization. GSK3 beta- and USP22-dependent KDM1A stabilization is required for the demethylation of histone H3K4, thereby repressing BMP2, CDKN1A and GATA6 transcription, which results in cancer stem cell self-renewal and glioblastoma tumorigenesis. In human glioblastoma specimens, KDM1A levels are correlated with nuclear GSK3 beta and USP22 levels. Furthermore, a GSK3 inhibitor, tideglusib, sensitizes tumour xenografts to chemotherapy in mice via KDM1A downregulation and improves survival. Our findings demonstrate that nuclear GSK3 beta- and USP22-mediated KDM1A stabilization is essential for glioblastoma tumorigenesis.
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