Telomere sequence content can be used to determine ALT activity in tumours

Michael Lee; Erdahl T. Teber; Oliver Holmes; Katia Nones; Ann Marie Patch; Rebecca A. Dagg; Loretta M.S. Lau; Joyce H. Lee; Christine E. Napier; Jonathan W. Arthur; Sean M. Grimmond; Nicholas K. Hayward; Peter A. Johansson; Graham J. Mann; Richard A. Scolyer; James S. Wilmott; Roger R. Reddel; John V. Pearson; Nicola Waddell; Hilda A. Pickett

doi:10.1093/nar/gky297

Telomere sequence content can be used to determine ALT activity in tumours

Michael Lee, Erdahl T. Teber, Oliver Holmes, Katia Nones, Ann Marie Patch, Rebecca A. Dagg, Loretta M.S. Lau, Joyce H. Lee, Christine E. Napier, Jonathan W. Arthur, Sean M. Grimmond, Nicholas K. Hayward, Peter A. Johansson, Graham J. Mann, Richard A. Scolyer, James S. Wilmott, Roger R. Reddel, John V. Pearson, Nicola Waddell, Hilda A. Pickett^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

The replicative immortality of human cancer cells is achieved by activation of a telomere maintenance mechanism (TMM). To achieve this, cancer cells utilise either the enzyme telomerase, or the Alternative Lengthening of Telomeres (ALT) pathway. These distinct molecular pathways are incompletely understood with respect to activation and propagation, as well as their associations with clinical outcomes. We have identified significant differences in the telomere repeat composition of tumours that use ALT compared to tumours that do not. We then employed a machine learning approach to stratify tumours according to telomere repeat content with an accuracy of 91.6%. Importantly, this classification approach is applicable across all tumour types. Analysis of pathway mutations that were under-represented in ALT tumours, across 1,075 tumour samples, revealed that the autophagy, cell cycle control of chromosomal replication, and transcriptional regulatory network in embryonic stem cells pathways are involved in the survival of ALT tumours. Overall, our approach demonstrates that telomere sequence content can be used to stratify ALT activity in cancers, and begin to define the molecular pathways involved in ALT activation.

Original language	English
Pages (from-to)	4903-4918
Number of pages	16
Journal	Nucleic Acids Research
Volume	46
Issue number	10
DOIs	https://doi.org/10.1093/nar/gky297
Publication status	Published - 1 Jun 2018
Externally published	Yes

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Lee, M., Teber, E. T., Holmes, O., Nones, K., Patch, A. M., Dagg, R. A., Lau, L. M. S., Lee, J. H., Napier, C. E., Arthur, J. W., Grimmond, S. M., Hayward, N. K., Johansson, P. A., Mann, G. J., Scolyer, R. A., Wilmott, J. S., Reddel, R. R., Pearson, J. V., Waddell, N., & Pickett, H. A. (2018). Telomere sequence content can be used to determine ALT activity in tumours. Nucleic Acids Research, 46(10), 4903-4918. https://doi.org/10.1093/nar/gky297

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title = "Telomere sequence content can be used to determine ALT activity in tumours",

abstract = "The replicative immortality of human cancer cells is achieved by activation of a telomere maintenance mechanism (TMM). To achieve this, cancer cells utilise either the enzyme telomerase, or the Alternative Lengthening of Telomeres (ALT) pathway. These distinct molecular pathways are incompletely understood with respect to activation and propagation, as well as their associations with clinical outcomes. We have identified significant differences in the telomere repeat composition of tumours that use ALT compared to tumours that do not. We then employed a machine learning approach to stratify tumours according to telomere repeat content with an accuracy of 91.6%. Importantly, this classification approach is applicable across all tumour types. Analysis of pathway mutations that were under-represented in ALT tumours, across 1,075 tumour samples, revealed that the autophagy, cell cycle control of chromosomal replication, and transcriptional regulatory network in embryonic stem cells pathways are involved in the survival of ALT tumours. Overall, our approach demonstrates that telomere sequence content can be used to stratify ALT activity in cancers, and begin to define the molecular pathways involved in ALT activation.",

author = "Michael Lee and Teber, {Erdahl T.} and Oliver Holmes and Katia Nones and Patch, {Ann Marie} and Dagg, {Rebecca A.} and Lau, {Loretta M.S.} and Lee, {Joyce H.} and Napier, {Christine E.} and Arthur, {Jonathan W.} and Grimmond, {Sean M.} and Hayward, {Nicholas K.} and Johansson, {Peter A.} and Mann, {Graham J.} and Scolyer, {Richard A.} and Wilmott, {James S.} and Reddel, {Roger R.} and Pearson, {John V.} and Nicola Waddell and Pickett, {Hilda A.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2018.",

year = "2018",

month = jun,

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doi = "10.1093/nar/gky297",

language = "English",

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Lee, M, Teber, ET, Holmes, O, Nones, K, Patch, AM, Dagg, RA, Lau, LMS, Lee, JH, Napier, CE, Arthur, JW, Grimmond, SM, Hayward, NK, Johansson, PA, Mann, GJ, Scolyer, RA, Wilmott, JS, Reddel, RR, Pearson, JV, Waddell, N & Pickett, HA 2018, 'Telomere sequence content can be used to determine ALT activity in tumours', Nucleic Acids Research, vol. 46, no. 10, pp. 4903-4918. https://doi.org/10.1093/nar/gky297

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T1 - Telomere sequence content can be used to determine ALT activity in tumours

AU - Lee, Michael

AU - Teber, Erdahl T.

AU - Holmes, Oliver

AU - Nones, Katia

AU - Patch, Ann Marie

AU - Dagg, Rebecca A.

AU - Lau, Loretta M.S.

AU - Lee, Joyce H.

AU - Napier, Christine E.

AU - Arthur, Jonathan W.

AU - Grimmond, Sean M.

AU - Hayward, Nicholas K.

AU - Johansson, Peter A.

AU - Mann, Graham J.

AU - Scolyer, Richard A.

AU - Wilmott, James S.

AU - Reddel, Roger R.

AU - Pearson, John V.

AU - Waddell, Nicola

AU - Pickett, Hilda A.

PY - 2018/6/1

Y1 - 2018/6/1

N2 - The replicative immortality of human cancer cells is achieved by activation of a telomere maintenance mechanism (TMM). To achieve this, cancer cells utilise either the enzyme telomerase, or the Alternative Lengthening of Telomeres (ALT) pathway. These distinct molecular pathways are incompletely understood with respect to activation and propagation, as well as their associations with clinical outcomes. We have identified significant differences in the telomere repeat composition of tumours that use ALT compared to tumours that do not. We then employed a machine learning approach to stratify tumours according to telomere repeat content with an accuracy of 91.6%. Importantly, this classification approach is applicable across all tumour types. Analysis of pathway mutations that were under-represented in ALT tumours, across 1,075 tumour samples, revealed that the autophagy, cell cycle control of chromosomal replication, and transcriptional regulatory network in embryonic stem cells pathways are involved in the survival of ALT tumours. Overall, our approach demonstrates that telomere sequence content can be used to stratify ALT activity in cancers, and begin to define the molecular pathways involved in ALT activation.

AB - The replicative immortality of human cancer cells is achieved by activation of a telomere maintenance mechanism (TMM). To achieve this, cancer cells utilise either the enzyme telomerase, or the Alternative Lengthening of Telomeres (ALT) pathway. These distinct molecular pathways are incompletely understood with respect to activation and propagation, as well as their associations with clinical outcomes. We have identified significant differences in the telomere repeat composition of tumours that use ALT compared to tumours that do not. We then employed a machine learning approach to stratify tumours according to telomere repeat content with an accuracy of 91.6%. Importantly, this classification approach is applicable across all tumour types. Analysis of pathway mutations that were under-represented in ALT tumours, across 1,075 tumour samples, revealed that the autophagy, cell cycle control of chromosomal replication, and transcriptional regulatory network in embryonic stem cells pathways are involved in the survival of ALT tumours. Overall, our approach demonstrates that telomere sequence content can be used to stratify ALT activity in cancers, and begin to define the molecular pathways involved in ALT activation.

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U2 - 10.1093/nar/gky297

DO - 10.1093/nar/gky297

M3 - Article

SN - 0305-1048

VL - 46

SP - 4903

EP - 4918

JO - Nucleic Acids Research

JF - Nucleic Acids Research

IS - 10

ER -

Telomere sequence content can be used to determine ALT activity in tumours

Abstract

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