Acta Neuropathologica Communications (Aug 2020)

New somatic TERT promoter variants enhance the Telomerase activity in Glioblastoma

  • Tiziana Pierini,
  • Carlotta Nardelli,
  • Anair Graciela Lema Fernandez,
  • Valentina Pierini,
  • Fabrizia Pellanera,
  • Valeria Nofrini,
  • Paolo Gorello,
  • Martina Moretti,
  • Silvia Arniani,
  • Giovanni Roti,
  • Paolo Giovenali,
  • Marco Lupattelli,
  • Giulio Metro,
  • Carmen Molica,
  • Corrado Castrioto,
  • Rodolfo Corinaldesi,
  • Maria Elena Laurenti,
  • Stefano Ascani,
  • Cristina Mecucci,
  • Roberta La Starza

DOI
https://doi.org/10.1186/s40478-020-01022-4
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 10

Abstract

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Abstract The catalytic activity of human Telomerase Reverse Transcriptase (TERT) compensates for the loss of telomere length, eroded during each cell cycle, to ensure a correct division of stem and germinal cells. In human tumors, ectopic TERT reactivation, most frequently due to hotspot mutations in the promoter region (TERTp), i.e. c.1-124 C > T, c.1-146 C > T, confers a proliferative advantage to neoplastic cells. In gliomas, TERTp mutations (TERTpmut) mainly occur in oligodendroglioma and glioblastoma. We screened, for TERTp hotspot mutations, 301 adult patients with gliomas and identified heterozygous mutations in 239 cases: 94% of oligodendroglioma, 85% of glioblastoma, and 37.5% of diffuse/anaplastic astrocytoma. Besides the recurrent c.1-124 C > T and c.1-146 C > T, two cases of glioblastoma harbored novel somatic TERTp variants, which consisted of a tandem duplications of 22 nucleotides, i.e. a TERTp c.1-100_1-79dup and TERTp c.1-110_1-89, both located downstream c.1-124 C > T and c.1-146 C > T. In silico analysis predicted the formation of 119 and 108 new transcription factor’s recognition sites for TERTp c.1-100_1-79dup and TERTp c.1-110_1-89, respectively. TERTp duplications (TERTpdup) mainly affected the binding capacity of two transcription factors’ families, i.e. the members of the E-twenty-six and the Specificity Protein/Krüppel-Like Factor groups. In fact, these new TERTpdup significantly enhanced the E-twenty-six transcription factors’ binding capacity, which is also typically increased by the two c.1-124 C > T/c.1-146 C > T hotspot TERTpmut. On the other hand, they were distinguished by enhanced affinity for the Krüppel proteins. The luciferase assay confirmed that TERTpdup behaved as gain-of-function mutations causing a 2,3-2,5 fold increase of TERT transcription. The present study provides new insights into TERTp mutational spectrum occurring in central nervous system tumors, with the identification of new recurrent somatic gain-of-function mutations, occurring in 0.8% of glioblastoma IDH-wildtype.

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