Mutations in the Promoter of the Telomerase Gene Contribute to Tumorigenesis by a Two-step Mechanism

Overview

Journal Science

Specialty Science

Date 2017 Aug 19

PMID 28818973

Citations 157

Authors

Kunitoshi Chiba

Franziska K Lorbeer

A Hunter Shain

David T McSwiggen

Eva Schruf

Areum Oh

Jekwan Ryu

Xavier Darzacq

Boris C Bastian

Dirk Hockemeyer

Affiliations

Soon will be listed here.

Abstract

promoter mutations (TPMs) are the most common noncoding mutations in cancer. The timing and consequences of TPMs have not been fully established. Here, we show that TPMs acquired at the transition from benign nevus to malignant melanoma do not support telomere maintenance. In vitro experiments revealed that TPMs do not prevent telomere attrition, resulting in cells with critically short and unprotected telomeres. Immortalization by TPMs requires a gradual up-regulation of telomerase, coinciding with telomere fusions. These data suggest that TPMs contribute to tumorigenesis by promoting immortalization and genomic instability in two phases. In an initial phase, TPMs do not prevent bulk telomere shortening but extend cellular life span by healing the shortest telomeres. In the second phase, the critically short telomeres lead to genome instability and telomerase is further up-regulated to sustain cell proliferation.

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