The CDKN2A G500 Allele Is More Frequent in GBM Patients with No Defined Telomere Maintenance Mechanism Tumors and Is Associated with Poorer Survival

Janice A Royds,Yu-Jen Chen,Antonio Ahn,Anna K Wiles,Martin R Macfarlane,Sara Bowie,Alisha Shaw,Shafagh Al Nadaf,Frederic Lam,Bruce C Baguley,Antony W Braithwaite,Noelyn A Hung,Tania L Slatter,Daniel Monleon

doi:10.1371/journal.pone.0026737

Abstract

Prognostic markers for glioblastoma multiforme (GBM) are important for patient management. Recent advances have identified prognostic markers for GBMs that use telomerase or the alternative lengthening of telomeres (ALT) mechanism for telomere maintenance. Approximately 40% of GBMs have no defined telomere maintenance mechanism (NDTMM), with a mixed survival for affected individuals. This study examined genetic variants in the cyclin-dependent kinase inhibitor 2A (CDKN2A) gene that encodes the p16INK4a and p14ARF tumor suppressors, and the isocitrate dehydrogenase 1 (IDH1) gene as potential markers of survival for 40 individuals with NDTMM GBMs (telomerase negative and ALT negative by standard assays), 50 individuals with telomerase, and 17 individuals with ALT positive tumors. The analysis of CDKN2A showed NDTMM GBMs had an increased minor allele frequency for the C500G (rs11515) polymorphism compared to those with telomerase and ALT positive GBMs (p = 0.002). Patients with the G500 allele had reduced survival that was independent of age, extent of surgery, and treatment. In the NDTMM group G500 allele carriers had increased loss of CDKN2A gene dosage compared to C500 homozygotes. An analysis of IDH1 mutations showed the R132H mutation was associated with ALT positive tumors, and was largely absent in NDTMM and telomerase positive tumors. In the ALT positive tumors cohort, IDH1 mutations were associated with a younger age for the affected individual. In conclusion, the G500 CDKN2A allele was associated with NDTMM GBMs from older individuals with poorer survival. Mutations in IDH1 were not associated with NDTMM GBMs, and instead were a marker for ALT positive tumors in younger individuals.

Highlights

Acquisition of a telomere maintenance mechanism prevents telomere attrition and is a hallmark of cancer [1,2]
In the case of tumors negative for telomerase and alternative lengthening of telomeres (ALT) by standard assays, it is unclear if no telomere maintenance occurs, if telomerase activity is below the detection limit of the current assays, or if telomeres are maintained by an unrecognized mechanism
Due to the potential importance for the cyclin-dependent kinase inhibitor 2A (CDKN2A) C500G polymorphism and isocitrate dehydrogenase 1 (IDH1) mutations in glioblastoma multiforme (GBM), the current study investigated the C and G 500 allele frequencies in genomic DNA, and IDH1 mutations in tumor DNA from 107 individuals with telomerase, ALT, and no defined telomere maintenance mechanism (NDTMM) GBMs

Summary

Introduction

Acquisition of a telomere maintenance mechanism prevents telomere attrition and is a hallmark of cancer [1,2]. Most tumors utilize the telomerase enzyme to maintain telomere DNA repeats, and a minority use an alternative mechanism characterized by heterogeneous telomere lengths known as alternative lengthening of telomeres (ALT) [3,4]. In the case of tumors negative for telomerase and ALT by standard assays (non defined telomere maintenance mechanism, NDTMM), it is unclear if no telomere maintenance occurs, if telomerase activity is below the detection limit of the current assays, or if telomeres are maintained by an unrecognized mechanism. In glioblastoma multiforme (GBM) all of the telomere maintenance scenarios outlined above occur [5]. To date no prognostic markers have been identified for the approximately 40% of patients whose GBMs are without a currently defined telomere maintenance mechanism

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Conclusion