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Cytomegalovirus Immediate-Early Proteins Promote Stemness Properties in Glioblastoma
- Soroceanu, Liliana;
- Matlaf, Lisa;
- Khan, Sabeena;
- Akhavan, Armin;
- Singer, Eric;
- Bezrookove, Vladimir;
- Decker, Stacy;
- Ghanny, Saleena;
- Hadaczek, Piotr;
- Bengtsson, Henrik;
- Ohlfest, John;
- Luciani-Torres, Maria-Gloria;
- Harkins, Lualhati;
- Perry, Arie;
- Guo, Hong;
- Soteropoulos, Patricia;
- Cobbs, Charles S
- et al.
Published Web Location
https://doi.org/10.1158/0008-5472.can-14-3307Abstract
Glioblastoma (GBM) is the most common and aggressive human brain tumor. Human cytomegalovirus (HCMV) immediate-early (IE) proteins that are endogenously expressed in GBM cells are strong viral transactivators with oncogenic properties. Here, we show how HCMV IEs are preferentially expressed in glioma stem-like cells (GSC), where they colocalize with the other GBM stemness markers, CD133, Nestin, and Sox2. In patient-derived GSCs that are endogenously infected with HCMV, attenuating IE expression by an RNAi-based strategy was sufficient to inhibit tumorsphere formation, Sox2 expression, cell-cycle progression, and cell survival. Conversely, HCMV infection of HMCV-negative GSCs elicited robust self-renewal and proliferation of cells that could be partially reversed by IE attenuation. In HCMV-positive GSCs, IE attenuation induced a molecular program characterized by enhanced expression of mesenchymal markers and proinflammatory cytokines, resembling the therapeutically resistant GBM phenotype. Mechanistically, HCMV/IE regulation of Sox2 occurred via inhibition of miR-145, a negative regulator of Sox2 protein expression. In a spontaneous mouse model of glioma, ectopic expression of the IE1 gene (UL123) specifically increased Sox2 and Nestin levels in the IE1-positive tumors, upregulating stemness and proliferation markers in vivo. Similarly, human GSCs infected with the HCMV strain Towne but not the IE1-deficient strain CR208 showed enhanced growth as tumorspheres and intracranial tumor xenografts, compared with mock-infected human GSCs. Overall, our findings offer new mechanistic insights into how HCMV/IE control stemness properties in GBM cells.
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