AI Article Synopsis
- Sox2 deletion in mouse high-grade glioma cells halts cell growth and prevents tumor formation, leading to the deregulation of 134 genes.
- Researchers identified four specific genes (Ebf1, Hey2, Zfp423, and Cdkn2b) that, when overexpressed, inhibited cell proliferation and tumor growth, suggesting these genes could be targeted for new cancer therapies.
Article Abstract
Cancer stem cells (CSC) are essential for tumorigenesis. The transcription factor Sox2 is overexpressed in brain gliomas, and is essential to maintain CSC. In mouse high-grade glioma pHGG cells in culture, Sox2 deletion causes cell proliferation arrest and inability to reform tumors after transplantation in vivo; in Sox2-deleted cells, 134 genes are derepressed. To identify genes mediating Sox2 deletion effects, we overexpressed into pHGG cells nine among the most derepressed genes, and identified four genes, Ebf1, Hey2, Zfp423, and Cdkn2b, that strongly reduced cell proliferation in vitro and brain tumorigenesis in vivo. CRISPR/Cas9 mutagenesis of each gene, individually or in combination (Ebf1 + Cdkn2b), significantly antagonized the proliferation arrest caused by Sox2 deletion. The same genes also repressed clonogenicity in primary human glioblastoma-derived CSC-like lines. These experiments identify a network of critical tumor suppressive Sox2-targets whose inhibition by Sox2 is involved in glioma CSC maintenance, defining new potential therapeutic targets.
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| http://dx.doi.org/10.1002/glia.23914 | DOI Listing |
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