Exploiting TERT dependency as a therapeutic strategy for NRAS-mutant melanoma

Patricia Reyes-Uribe; Maria Paz Adrianzen-Ruesta; Zhong Deng; Ileabett Echevarria-Vargas; Ilgen Mender; Steven Saheb; Qin Liu; Dario C. Altieri; Maureen E. Murphy; Jerry W. Shay; Paul M. Lieberman; Jessie Villanueva

doi:10.1038/s41388-018-0247-7

Exploiting TERT dependency as a therapeutic strategy for NRAS-mutant melanoma

Patricia Reyes-Uribe, Maria Paz Adrianzen-Ruesta, Zhong Deng, Ileabett Echevarria-Vargas, Ilgen Mender, Steven Saheb, Qin Liu, Dario C. Altieri, Maureen E. Murphy, Jerry W. Shay, Paul M. Lieberman, Jessie Villanueva

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35 Scopus citations

Abstract

Targeting RAS is one of the greatest challenges in cancer therapy. Oncogenic mutations in NRAS are present in over 25% of melanomas and patients whose tumors harbor NRAS mutations have limited therapeutic options and poor prognosis. Thus far, there are no clinical agents available to effectively target NRAS or any other RAS oncogene. An alternative approach is to identify and target critical tumor vulnerabilities or non-oncogene addictions that are essential for tumor survival. We investigated the consequences of NRAS blockade in NRAS-mutant melanoma and show that decreased expression of the telomerase catalytic subunit, TERT, is a major consequence. TERT silencing or treatment of NRAS-mutant melanoma with the telomerase-dependent telomere uncapping agent, 6-thio-2′-deoxyguanosine (6-thio-dG), led to rapid cell death, along with evidence of both telomeric and non-telomeric DNA damage, increased ROS levels, and upregulation of a mitochondrial antioxidant adaptive response. Combining 6-thio-dG with the mitochondrial inhibitor Gamitrinib attenuated this adaptive response and more effectively suppressed NRAS-mutant melanoma. Our study uncovers a robust dependency of NRAS-mutant melanoma on TERT, and provides proof-of-principle for a new combination strategy to combat this class of tumors, which could be expanded to other tumor types.

Original language	English (US)
Pages (from-to)	4058-4072
Number of pages	15
Journal	Oncogene
Volume	37
Issue number	30
DOIs	https://doi.org/10.1038/s41388-018-0247-7
State	Published - Jul 26 2018

ASJC Scopus subject areas

Molecular Biology
Genetics
Cancer Research

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@article{f883423542934ca499f5aa35cdcf8e67,

title = "Exploiting TERT dependency as a therapeutic strategy for NRAS-mutant melanoma",

abstract = "Targeting RAS is one of the greatest challenges in cancer therapy. Oncogenic mutations in NRAS are present in over 25% of melanomas and patients whose tumors harbor NRAS mutations have limited therapeutic options and poor prognosis. Thus far, there are no clinical agents available to effectively target NRAS or any other RAS oncogene. An alternative approach is to identify and target critical tumor vulnerabilities or non-oncogene addictions that are essential for tumor survival. We investigated the consequences of NRAS blockade in NRAS-mutant melanoma and show that decreased expression of the telomerase catalytic subunit, TERT, is a major consequence. TERT silencing or treatment of NRAS-mutant melanoma with the telomerase-dependent telomere uncapping agent, 6-thio-2′-deoxyguanosine (6-thio-dG), led to rapid cell death, along with evidence of both telomeric and non-telomeric DNA damage, increased ROS levels, and upregulation of a mitochondrial antioxidant adaptive response. Combining 6-thio-dG with the mitochondrial inhibitor Gamitrinib attenuated this adaptive response and more effectively suppressed NRAS-mutant melanoma. Our study uncovers a robust dependency of NRAS-mutant melanoma on TERT, and provides proof-of-principle for a new combination strategy to combat this class of tumors, which could be expanded to other tumor types.",

author = "Patricia Reyes-Uribe and Adrianzen-Ruesta, {Maria Paz} and Zhong Deng and Ileabett Echevarria-Vargas and Ilgen Mender and Steven Saheb and Qin Liu and Altieri, {Dario C.} and Murphy, {Maureen E.} and Shay, {Jerry W.} and Lieberman, {Paul M.} and Jessie Villanueva",

note = "Funding Information: Funding Work in our laboratory is supported by NIH grants R01CA215733, K01CA175269, P01CA114046, P50CA174523, the American Cancer Society, the V Foundation for Cancer Research, the Melanoma Research Alliance, the Melanoma Research Foundation, and the Martha Rogers Trust. IEV was supported by NCI NRSA T32 CA009171 Cancer Biology Training Grant to the Wistar Institute, and Z.D. is supported by Worldwide Cancer Research (15-0338). This project was funded, in part, under a grant with the Pennsylvania Department of Health. The Department specifically disclaims responsibility for any analyses, interpretations or conclusions. Support for shared resources utilized in this study was provided by Cancer Center Support Grant (CCSG) P30CA010815 to the Wistar Institute. Publisher Copyright: {\textcopyright} 2018, The Author(s).",

year = "2018",

month = jul,

day = "26",

doi = "10.1038/s41388-018-0247-7",

language = "English (US)",

volume = "37",

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T1 - Exploiting TERT dependency as a therapeutic strategy for NRAS-mutant melanoma

AU - Reyes-Uribe, Patricia

AU - Adrianzen-Ruesta, Maria Paz

AU - Deng, Zhong

AU - Echevarria-Vargas, Ileabett

AU - Mender, Ilgen

AU - Saheb, Steven

AU - Liu, Qin

AU - Altieri, Dario C.

AU - Murphy, Maureen E.

AU - Shay, Jerry W.

AU - Lieberman, Paul M.

AU - Villanueva, Jessie

N1 - Funding Information: Funding Work in our laboratory is supported by NIH grants R01CA215733, K01CA175269, P01CA114046, P50CA174523, the American Cancer Society, the V Foundation for Cancer Research, the Melanoma Research Alliance, the Melanoma Research Foundation, and the Martha Rogers Trust. IEV was supported by NCI NRSA T32 CA009171 Cancer Biology Training Grant to the Wistar Institute, and Z.D. is supported by Worldwide Cancer Research (15-0338). This project was funded, in part, under a grant with the Pennsylvania Department of Health. The Department specifically disclaims responsibility for any analyses, interpretations or conclusions. Support for shared resources utilized in this study was provided by Cancer Center Support Grant (CCSG) P30CA010815 to the Wistar Institute. Publisher Copyright: © 2018, The Author(s).

PY - 2018/7/26

Y1 - 2018/7/26

N2 - Targeting RAS is one of the greatest challenges in cancer therapy. Oncogenic mutations in NRAS are present in over 25% of melanomas and patients whose tumors harbor NRAS mutations have limited therapeutic options and poor prognosis. Thus far, there are no clinical agents available to effectively target NRAS or any other RAS oncogene. An alternative approach is to identify and target critical tumor vulnerabilities or non-oncogene addictions that are essential for tumor survival. We investigated the consequences of NRAS blockade in NRAS-mutant melanoma and show that decreased expression of the telomerase catalytic subunit, TERT, is a major consequence. TERT silencing or treatment of NRAS-mutant melanoma with the telomerase-dependent telomere uncapping agent, 6-thio-2′-deoxyguanosine (6-thio-dG), led to rapid cell death, along with evidence of both telomeric and non-telomeric DNA damage, increased ROS levels, and upregulation of a mitochondrial antioxidant adaptive response. Combining 6-thio-dG with the mitochondrial inhibitor Gamitrinib attenuated this adaptive response and more effectively suppressed NRAS-mutant melanoma. Our study uncovers a robust dependency of NRAS-mutant melanoma on TERT, and provides proof-of-principle for a new combination strategy to combat this class of tumors, which could be expanded to other tumor types.

AB - Targeting RAS is one of the greatest challenges in cancer therapy. Oncogenic mutations in NRAS are present in over 25% of melanomas and patients whose tumors harbor NRAS mutations have limited therapeutic options and poor prognosis. Thus far, there are no clinical agents available to effectively target NRAS or any other RAS oncogene. An alternative approach is to identify and target critical tumor vulnerabilities or non-oncogene addictions that are essential for tumor survival. We investigated the consequences of NRAS blockade in NRAS-mutant melanoma and show that decreased expression of the telomerase catalytic subunit, TERT, is a major consequence. TERT silencing or treatment of NRAS-mutant melanoma with the telomerase-dependent telomere uncapping agent, 6-thio-2′-deoxyguanosine (6-thio-dG), led to rapid cell death, along with evidence of both telomeric and non-telomeric DNA damage, increased ROS levels, and upregulation of a mitochondrial antioxidant adaptive response. Combining 6-thio-dG with the mitochondrial inhibitor Gamitrinib attenuated this adaptive response and more effectively suppressed NRAS-mutant melanoma. Our study uncovers a robust dependency of NRAS-mutant melanoma on TERT, and provides proof-of-principle for a new combination strategy to combat this class of tumors, which could be expanded to other tumor types.

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Exploiting TERT dependency as a therapeutic strategy for NRAS-mutant melanoma

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