DNA hypermethylation within TERT promoter upregulates TERT expression in cancer

Donghyun D. Lee; Ricardo Leão; Martin Komosa; Marco Gallo; Cindy H. Zhang; Tatiana Lipman; Marc Remke; Abolfazl Heidari; Nuno M. Nunes; Joana Apolónio; Aryeh J. Price; Ramon Andrade de Mello; João S. Dias; David Huntsman; Thomas Hermanns; Peter J. Wild; Robert J. Vanner; Gelareh Zadeh; Jason Karamchandani; Sunit Das; Michael D. Taylor; Cynthia Hawkins; Jonathan D. Wasserman; Arnaldo Figueiredo; Robert J. Hamilton; Mark D. Minden; Khalida Wani; Bill H. Diplas; Hai Yan; Kenneth Aldape; Mohammad R. Akbari; Arnavaz Danesh; Trevor J. Pugh; Peter B. Dirks; Pedro Castelo‐Branco; Uri Tabori

doi:10.1172/jci121303

DNA hypermethylation within TERT promoter upregulates TERT expression in cancer

Donghyun D. Lee(University of Toronto), Ricardo Leão(Hospital for Sick Children), Martin Komosa(Hospital for Sick Children), Marco Gallo(University of Calgary), Cindy H. Zhang(Hospital for Sick Children), Tatiana Lipman(Hospital for Sick Children), Marc Remke(Düsseldorf University Hospital), Abolfazl Heidari(Hospital for Sick Children), Nuno M. Nunes(Hospital for Sick Children), Joana Apolónio(Algarve Biomedical Center), Aryeh J. Price(Hospital for Sick Children), Ramon Andrade de Mello, João S. Dias(Algarve Biomedical Center), David Huntsman(University of British Columbia), Thomas Hermanns(University Hospital of Zurich), Peter J. Wild(University Hospital of Zurich), Robert J. Vanner(Hospital for Sick Children), Gelareh Zadeh(University Health Network), Jason Karamchandani(Montreal Neurological Institute and Hospital), Sunit Das(Hospital for Sick Children), Michael D. Taylor(Hospital for Sick Children), Cynthia Hawkins(Hospital for Sick Children), Jonathan D. Wasserman(Hospital for Sick Children), Arnaldo Figueiredo(University of Coimbra), Robert J. Hamilton(University of Toronto), Mark D. Minden(University Health Network), Khalida Wani(The University of Texas MD Anderson Cancer Center), Bill H. Diplas(Duke Medical Center), Hai Yan(Duke Medical Center), Kenneth Aldape(University Health Network), Mohammad R. Akbari(University of Toronto), Arnavaz Danesh(University Health Network), Trevor J. Pugh(University Health Network), Peter B. Dirks(Hospital for Sick Children), Pedro Castelo‐Branco, Uri Tabori(Hospital for Sick Children)

Journal of Clinical Investigation

October 25, 2018

10.1172/jci121303

Cited by 186Open Access

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Abstract

Replicative immortality is a hallmark of cancer cells governed by telomere maintenance. Approximately 90% of human cancers maintain their telomeres by activating telomerase, driven by the transcriptional upregulation of telomerase reverse transcriptase (TERT). Although TERT promoter mutations (TPMs) are a major cancer-associated genetic mechanism of TERT upregulation, many cancers exhibit TERT upregulation without TPMs. In this study, we describe the TERT hypermethylated oncological region (THOR), a 433-bp genomic region encompassing 52 CpG sites located immediately upstream of the TERT core promoter, as a cancer-associated epigenetic mechanism of TERT upregulation. Unmethylated THOR repressed TERT promoter activity regardless of TPM status, and hypermethylation of THOR counteracted this repressive function. THOR methylation analysis in 1,352 human tumors revealed frequent (>45%) cancer-associated DNA hypermethylation in 9 of 11 (82%) tumor types screened. Additionally, THOR hypermethylation, either independently or along with TPMs, accounted for how approximately 90% of human cancers can aberrantly activate telomerase. Thus, we propose that THOR hypermethylation is a prevalent telomerase-activating mechanism in cancer that can act independently of or in conjunction with TPMs, further supporting the utility of THOR hypermethylation as a prognostic biomarker.

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