4.0 Article

TERT distal promoter GC islands are critical for telomerase and together with DNMT3B silencing may serve as a senescence-inducing agent in gliomas

Journal

JOURNAL OF NEUROGENETICS
Volume 36, Issue 4, Pages 89-97

Publisher

TAYLOR & FRANCIS LTD
DOI: 10.1080/01677063.2022.2106371

Keywords

Telomere; TERT promoter; telomerase; brain cancer; DNA methylation

Funding

  1. Scientific and Technological Research Council of Turkey [1001, 114S548]
  2. Hacettepe University Scientific BAP [THD-2017-15492, THD-2018-16904]

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Telomerase reactivation is common in most cancers. This study focused on investigating the DNA methylation status of proximal and distal TERT promoter, and found a hypomethylation site in the distal tert promoter that is associated with aging and shortened telomeres. Through site-directed mutagenesis and silencing of DNMT3B, the critical role of GC spots and DNMT3B in regulating telomerase expression and senescence was revealed. The study also proposed a model for the efficacy of two chemotherapeutic drugs on gliomas based on the criticality of the distal TERT promoter.
Telomerase is reactivated in the majority of cancers. For instance, in gliomas, it is common that the TERT promoter is mutated. Research on telomere promoter GC islands have been focused primarily on proximal TERT promoter but little is known about the distal promoter. Therefore, in this study, we investigated the proximal and distal TERT promoter, in terms of DNA methylation. We did bisulfite sequencing in zebrafish tissue samples for the distal tert promoter. In the zebrafish brain tissues, we identified a hypomethylation site in the tert promoter, and found that this hypomethylation was associated with aging and shortened telomeres. Through site directed mutagenesis in glioma cell lines, we changed 10 GC spots individually, cloned into a reporter vector, and measured promoter activity. Finally, we silenced DNMT3B and measured telomerase activity along with vidaza and adriamycin treatments. Site directed mutagenesis of glioma cell lines revealed that each of the 10 GC spots are critical for telomerase activity. Changing GC to AT abolished promoter activity in all spots when transfected into glioma cell lines. Then, through silencing of DNMT3B, we observed a reduction in hTERT expression levels, while hTR remained the same, and a major increase in senescence-associated beta-galactosidase activity. Finally, we propose a model regarding the efficacy of two chemotherapeutic drugs, adriamycin and azacytidine, on gliomas. Here, we show that distal TERT promoter is critical; changing even one GC to AT abolishes TERT promoter activity. DNMT3B, a de novo methyltransferase, together with GC islands in distal TERT promoter plays an important role in regulation of telomerase expression and senescence.

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