Epigenetic Regulation Of Wnt Pathway Antagonists In Human Glioblastoma Multiforme  

Oleh:

Foltz, Greg ; Yoon, Jae-Geun ; Lee, Hwahyung ; Ma, Li ; Tian, Qiang ; Hood, Leroy ; Madan, Anup

Jenis: Article from Article
Dalam koleksi: Genes and Cancer vol. 1 no. 1 (Jan. 2010), page 81-90.
Topik: Epigenetics; Histone Modifications; Methylation; Glioblastoma
Fulltext: 81.full.pdf (463.68KB)

Isi artikel

Epigenetic inactivation of tumor suppressor genes is common in human cancer. Using a large-scale whole-genome approach in an earlier study, the authors identified epigenetically silenced genes with potential tumor suppressor function in glioblastoma (GBM). Three genes identified in this analysis—DKK1, SFRP1, and WIF1—are potent inhibitors of the Wnt signal transduction pathway. Here, the authors confirm decreased expression of these genes in GBM tumor tissue samples relative to nontumor brain tissue samples using real-time PCR. They then show that expression of all 3 genes is restored in T98 GBM cells by treatment with the histone deacetylase inhibitor Trichostatin A (TSA), but only DKK1 expression is restored by treatment with the demethylating agent 5-azacytidine. Bisulfite sequencing did not reveal significant methylation in the promoter region of DKK1, whereas histone acetylation and chromatin accessibility increased significantly for all 3 genes after TSA treatment. Ectopic expression of DKK1 significantly reduces colony formation and increases chemotherapy-induced apoptosis in T98 cells. Ectopic expression of the canonical Wnt pathway inhibitors WIF1 and SFRP1 shows a relative lack of response. Chronic Wnt3a stimulation only partially reverses growth suppression after DKK1 reexpression, whereas a specific inhibitor of the JNK pathway significantly reverses the effect of DKK1 reexpression on colony formation and apoptosis in T98 cells. These results support a potential growthsuppressive function for epigenetically silenced DKK1 in GBM and suggest that DKK1 restoration could modulate Wnt signaling through both canonical and noncanonical pathways.

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