A Modified Nucleoside 6-Thio-2'-Deoxyguanosine Exhibits Antitumor Activity in Gliomas

Shengnan Yu; Shiyou Wei; Milan Savani; Xiang Lin; Kuang Du; Ilgen Mender; Silvia Siteni; Themistoklis Vasilopoulos; Zachary J. Reitman; Yin Ku; Di Wu; Hao Liu; Meng Tian; Yaohui Chen; Marilyne Labrie; Casey M. Charbonneau; Eric Sugarman; Michelle Bowie; Seethalakshmi Hariharan; Matthew Waitkus; Wen Jiang; Roger E. McLendon; Edward Pan; Mustafa Khasraw; Kyle M. Walsh; Yiling Lu; Meenhard Herlyn; Gordon Mills; Utz Herbig; Zhi Wei; Stephen T. Keir; Keith Flaherty; Lunxu Liu; Kongming Wu; Jerry W. Shay; Kalil Abdullah; Gao Zhang; David M. Ashley

doi:10.1158/1078-0432.CCR-21-0374

A Modified Nucleoside 6-Thio-2'-Deoxyguanosine Exhibits Antitumor Activity in Gliomas

Shengnan Yu, Shiyou Wei, Milan Savani, Xiang Lin, Kuang Du, Ilgen Mender, Silvia Siteni, Themistoklis Vasilopoulos, Zachary J. Reitman, Yin Ku, Di Wu, Hao Liu, Meng Tian, Yaohui Chen, Marilyne Labrie, Casey M. Charbonneau, Eric Sugarman, Michelle Bowie, Seethalakshmi Hariharan, Matthew WaitkusWen Jiang, Roger E. McLendon, Edward Pan, Mustafa Khasraw, Kyle M. Walsh, Yiling Lu, Meenhard Herlyn, Gordon Mills, Utz Herbig, Zhi Wei, Stephen T. Keir, Keith Flaherty, Lunxu Liu, Kongming Wu, Jerry W. Shay, Kalil Abdullah, Gao Zhang, David M. Ashley

New Jersey Medical School (NJMS) Cancer Center

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

2 Scopus citations

Abstract

Purpose: To investigate the therapeutic role of a novel telomeredirected inhibitor, 6-thio-20-deoxyguanosine (THIO) in gliomas both in vitro and in vivo. Experimental Design: A panel of human and mouse glioma cell lines was used to test therapeutic efficacy of THIO using cell viability assays, flow cytometric analyses, and immunofluorescence. Integrated analyses of RNA sequencing and reverse-phase protein array data revealed the potential antitumor mechanisms of THIO. Four patient-derived xenografts (PDX), two patientderived organoids (PDO), and two xenografts of human glioma cell lines were used to further investigate the therapeutic efficacy of THIO. Results: THIO was effective in the majority of human and mouse glioma cell lines with no obvious toxicity against normal astrocytes. THIO as a monotherapy demonstrated efficacy in three glioma cell lines that had acquired resistance to temozolomide. In addition, THIO showed efficacy in four human glioma cell lines grown as neurospheres by inducing apoptotic cell death. Mechanistically, THIO induced telomeric DNA damage not only in glioma cell lines but also in PDX tumor specimens. Integrated computational analyses of transcriptomic and proteomic data indicated that THIO significantly inhibited cell invasion, stem cell, and proliferation pathways while triggering DNA damage and apoptosis. Importantly, THIO significantly decreased tumor proliferation in two PDO models and reduced the tumor size of a glioblastoma xenograft and a PDX model. Conclusions: The current study established the therapeutic role of THIO in primary and recurrent gliomas and revealed the acute induction of telomeric DNA damage as a primary antitumor mechanism of THIO in gliomas.

Original language	English (US)
Pages (from-to)	6800-6814
Number of pages	15
Journal	Clinical Cancer Research
Volume	27
Issue number	24
DOIs	https://doi.org/10.1158/1078-0432.CCR-21-0374
State	Published - Dec 15 2021

All Science Journal Classification (ASJC) codes

Oncology
Cancer Research

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10.1158/1078-0432.CCR-21-0374

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Yu, S., Wei, S., Savani, M., Lin, X., Du, K., Mender, I., Siteni, S., Vasilopoulos, T., Reitman, Z. J., Ku, Y., Wu, D., Liu, H., Tian, M., Chen, Y., Labrie, M., Charbonneau, C. M., Sugarman, E., Bowie, M., Hariharan, S., ... Ashley, D. M. (2021). A Modified Nucleoside 6-Thio-2'-Deoxyguanosine Exhibits Antitumor Activity in Gliomas. Clinical Cancer Research, 27(24), 6800-6814. https://doi.org/10.1158/1078-0432.CCR-21-0374

@article{4055b6a2c44247f19d906e9f26fb18b2,

title = "A Modified Nucleoside 6-Thio-2'-Deoxyguanosine Exhibits Antitumor Activity in Gliomas",

abstract = "Purpose: To investigate the therapeutic role of a novel telomeredirected inhibitor, 6-thio-20-deoxyguanosine (THIO) in gliomas both in vitro and in vivo. Experimental Design: A panel of human and mouse glioma cell lines was used to test therapeutic efficacy of THIO using cell viability assays, flow cytometric analyses, and immunofluorescence. Integrated analyses of RNA sequencing and reverse-phase protein array data revealed the potential antitumor mechanisms of THIO. Four patient-derived xenografts (PDX), two patientderived organoids (PDO), and two xenografts of human glioma cell lines were used to further investigate the therapeutic efficacy of THIO. Results: THIO was effective in the majority of human and mouse glioma cell lines with no obvious toxicity against normal astrocytes. THIO as a monotherapy demonstrated efficacy in three glioma cell lines that had acquired resistance to temozolomide. In addition, THIO showed efficacy in four human glioma cell lines grown as neurospheres by inducing apoptotic cell death. Mechanistically, THIO induced telomeric DNA damage not only in glioma cell lines but also in PDX tumor specimens. Integrated computational analyses of transcriptomic and proteomic data indicated that THIO significantly inhibited cell invasion, stem cell, and proliferation pathways while triggering DNA damage and apoptosis. Importantly, THIO significantly decreased tumor proliferation in two PDO models and reduced the tumor size of a glioblastoma xenograft and a PDX model. Conclusions: The current study established the therapeutic role of THIO in primary and recurrent gliomas and revealed the acute induction of telomeric DNA damage as a primary antitumor mechanism of THIO in gliomas.",

author = "Shengnan Yu and Shiyou Wei and Milan Savani and Xiang Lin and Kuang Du and Ilgen Mender and Silvia Siteni and Themistoklis Vasilopoulos and Reitman, {Zachary J.} and Yin Ku and Di Wu and Hao Liu and Meng Tian and Yaohui Chen and Marilyne Labrie and Charbonneau, {Casey M.} and Eric Sugarman and Michelle Bowie and Seethalakshmi Hariharan and Matthew Waitkus and Wen Jiang and McLendon, {Roger E.} and Edward Pan and Mustafa Khasraw and Walsh, {Kyle M.} and Yiling Lu and Meenhard Herlyn and Gordon Mills and Utz Herbig and Zhi Wei and Keir, {Stephen T.} and Keith Flaherty and Lunxu Liu and Kongming Wu and Shay, {Jerry W.} and Kalil Abdullah and Gao Zhang and Ashley, {David M.}",

note = "Funding Information: This research was supported by NCI Grant 1U19CA264385-01 (D.M. Ashley and J.W. Shay). U. Herbig is funded by NIH (grant number R01CA136533). M. Herlyn, K. Flaherty, and G. Mills are funded by the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation. S. Yu and S. Wei are funded by China Scholarship Council. Y. Chen is funded by National Nature Science Foundation of China (grant number 31771549). Funding Information: I. Mender reports a patent for USE OF 6-THIO-dG TO TREAT THERAPY-RESISTANT TELOMERASE POSITIVE PEDIATRIC BRAIN TUMORS pending. S. Siteni reports a patent for 62/646,820 pending. Z.J. Reitman reports personal fees from Oakstone Publishing outside the submitted work; in addition, Z.J. Reitman has a patent for 16/928164 with royalties paid from Genetron Health. M. Khasraw reports grants and personal fees from BMS and AbbVie during the conduct of the study as well as personal fees from Janssen and Jax Lab, and grants from Specialized Therapeutics outside the submitted work. G. Mills reports grants, personal fees, non-financial support, and other support from Amphista, AstraZeneca, Chrysallis Biotechnology, GSK, ImmunoMET, Ionis, Lilly, PDX Pharmaceuticals, Signalchem Lifesciences, Symphogen, Tarveda, Turbine, Zentalis Pharmaceuticals, Catena Pharmaceuticals, HRD assay to Myriad Genetics, DSP to NanoString, Adelson Medical Research Foundation, Breast Cancer Research Foundation, Komen Research Foundation, Ovarian Cancer Research Foundation, Prospect Creek Foundation, NanoString Center of Excellence, Ionis (Provision of tool compounds), and Genentech during the conduct of the study. K. Flaherty reports personal fees from Loxo Oncology, Clovis Oncology, Strata Oncology, Vivid Biosciences, Checkmate Pharmaceuticals, Kinnate Biopharma, Scorpion Therapeutics, X4 Pharmaceuticals, PIC Therapeutics, Sanofi, Amgen, Asana Biosciences, Adaptimmune, Aeglea, Shattuck Labs, Tolero Pharmaceuticals, Apricity, Oncoceutics, Fog Pharma, Neon Therapeutics, Tvardi, xCures, Monopteros, Vibliome, ALX Oncology, Lilly, Novartis, Genentech, Bristol Myers Squibb, Merck, Takeda, Verastem, Boston Biomedical, Pierre Fabre, and Debiopharm during the conduct of the study. J.W. Shay reports grants from Maia Biotechnology during the conduct of the study; in addition, J.W. Shay has a patent for 62/646,820 pending to Maia Biotech and Maia SAB. D.M. Ashley reports personal fees from Maia Inc during the conduct of the study. No disclosures were reported by the other authors. Publisher Copyright: {\textcopyright} 2021 American Association for Cancer Research.",

year = "2021",

month = dec,

day = "15",

doi = "10.1158/1078-0432.CCR-21-0374",

language = "English (US)",

volume = "27",

pages = "6800--6814",

journal = "Clinical Cancer Research",

issn = "1078-0432",

publisher = "American Association for Cancer Research Inc.",

number = "24",

}

Yu, S, Wei, S, Savani, M, Lin, X, Du, K, Mender, I, Siteni, S, Vasilopoulos, T, Reitman, ZJ, Ku, Y, Wu, D, Liu, H, Tian, M, Chen, Y, Labrie, M, Charbonneau, CM, Sugarman, E, Bowie, M, Hariharan, S, Waitkus, M, Jiang, W, McLendon, RE, Pan, E, Khasraw, M, Walsh, KM, Lu, Y, Herlyn, M, Mills, G, Herbig, U, Wei, Z, Keir, ST, Flaherty, K, Liu, L, Wu, K, Shay, JW, Abdullah, K, Zhang, G & Ashley, DM 2021, 'A Modified Nucleoside 6-Thio-2'-Deoxyguanosine Exhibits Antitumor Activity in Gliomas', Clinical Cancer Research, vol. 27, no. 24, pp. 6800-6814. https://doi.org/10.1158/1078-0432.CCR-21-0374

TY - JOUR

T1 - A Modified Nucleoside 6-Thio-2'-Deoxyguanosine Exhibits Antitumor Activity in Gliomas

AU - Yu, Shengnan

AU - Wei, Shiyou

AU - Savani, Milan

AU - Lin, Xiang

AU - Du, Kuang

AU - Mender, Ilgen

AU - Siteni, Silvia

AU - Vasilopoulos, Themistoklis

AU - Reitman, Zachary J.

AU - Ku, Yin

AU - Wu, Di

AU - Liu, Hao

AU - Tian, Meng

AU - Chen, Yaohui

AU - Labrie, Marilyne

AU - Charbonneau, Casey M.

AU - Sugarman, Eric

AU - Bowie, Michelle

AU - Hariharan, Seethalakshmi

AU - Waitkus, Matthew

AU - Jiang, Wen

AU - McLendon, Roger E.

AU - Pan, Edward

AU - Khasraw, Mustafa

AU - Walsh, Kyle M.

AU - Lu, Yiling

AU - Herlyn, Meenhard

AU - Mills, Gordon

AU - Herbig, Utz

AU - Wei, Zhi

AU - Keir, Stephen T.

AU - Flaherty, Keith

AU - Liu, Lunxu

AU - Wu, Kongming

AU - Shay, Jerry W.

AU - Abdullah, Kalil

AU - Zhang, Gao

AU - Ashley, David M.

N1 - Funding Information: This research was supported by NCI Grant 1U19CA264385-01 (D.M. Ashley and J.W. Shay). U. Herbig is funded by NIH (grant number R01CA136533). M. Herlyn, K. Flaherty, and G. Mills are funded by the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation. S. Yu and S. Wei are funded by China Scholarship Council. Y. Chen is funded by National Nature Science Foundation of China (grant number 31771549). Funding Information: I. Mender reports a patent for USE OF 6-THIO-dG TO TREAT THERAPY-RESISTANT TELOMERASE POSITIVE PEDIATRIC BRAIN TUMORS pending. S. Siteni reports a patent for 62/646,820 pending. Z.J. Reitman reports personal fees from Oakstone Publishing outside the submitted work; in addition, Z.J. Reitman has a patent for 16/928164 with royalties paid from Genetron Health. M. Khasraw reports grants and personal fees from BMS and AbbVie during the conduct of the study as well as personal fees from Janssen and Jax Lab, and grants from Specialized Therapeutics outside the submitted work. G. Mills reports grants, personal fees, non-financial support, and other support from Amphista, AstraZeneca, Chrysallis Biotechnology, GSK, ImmunoMET, Ionis, Lilly, PDX Pharmaceuticals, Signalchem Lifesciences, Symphogen, Tarveda, Turbine, Zentalis Pharmaceuticals, Catena Pharmaceuticals, HRD assay to Myriad Genetics, DSP to NanoString, Adelson Medical Research Foundation, Breast Cancer Research Foundation, Komen Research Foundation, Ovarian Cancer Research Foundation, Prospect Creek Foundation, NanoString Center of Excellence, Ionis (Provision of tool compounds), and Genentech during the conduct of the study. K. Flaherty reports personal fees from Loxo Oncology, Clovis Oncology, Strata Oncology, Vivid Biosciences, Checkmate Pharmaceuticals, Kinnate Biopharma, Scorpion Therapeutics, X4 Pharmaceuticals, PIC Therapeutics, Sanofi, Amgen, Asana Biosciences, Adaptimmune, Aeglea, Shattuck Labs, Tolero Pharmaceuticals, Apricity, Oncoceutics, Fog Pharma, Neon Therapeutics, Tvardi, xCures, Monopteros, Vibliome, ALX Oncology, Lilly, Novartis, Genentech, Bristol Myers Squibb, Merck, Takeda, Verastem, Boston Biomedical, Pierre Fabre, and Debiopharm during the conduct of the study. J.W. Shay reports grants from Maia Biotechnology during the conduct of the study; in addition, J.W. Shay has a patent for 62/646,820 pending to Maia Biotech and Maia SAB. D.M. Ashley reports personal fees from Maia Inc during the conduct of the study. No disclosures were reported by the other authors. Publisher Copyright: © 2021 American Association for Cancer Research.

PY - 2021/12/15

Y1 - 2021/12/15

N2 - Purpose: To investigate the therapeutic role of a novel telomeredirected inhibitor, 6-thio-20-deoxyguanosine (THIO) in gliomas both in vitro and in vivo. Experimental Design: A panel of human and mouse glioma cell lines was used to test therapeutic efficacy of THIO using cell viability assays, flow cytometric analyses, and immunofluorescence. Integrated analyses of RNA sequencing and reverse-phase protein array data revealed the potential antitumor mechanisms of THIO. Four patient-derived xenografts (PDX), two patientderived organoids (PDO), and two xenografts of human glioma cell lines were used to further investigate the therapeutic efficacy of THIO. Results: THIO was effective in the majority of human and mouse glioma cell lines with no obvious toxicity against normal astrocytes. THIO as a monotherapy demonstrated efficacy in three glioma cell lines that had acquired resistance to temozolomide. In addition, THIO showed efficacy in four human glioma cell lines grown as neurospheres by inducing apoptotic cell death. Mechanistically, THIO induced telomeric DNA damage not only in glioma cell lines but also in PDX tumor specimens. Integrated computational analyses of transcriptomic and proteomic data indicated that THIO significantly inhibited cell invasion, stem cell, and proliferation pathways while triggering DNA damage and apoptosis. Importantly, THIO significantly decreased tumor proliferation in two PDO models and reduced the tumor size of a glioblastoma xenograft and a PDX model. Conclusions: The current study established the therapeutic role of THIO in primary and recurrent gliomas and revealed the acute induction of telomeric DNA damage as a primary antitumor mechanism of THIO in gliomas.

AB - Purpose: To investigate the therapeutic role of a novel telomeredirected inhibitor, 6-thio-20-deoxyguanosine (THIO) in gliomas both in vitro and in vivo. Experimental Design: A panel of human and mouse glioma cell lines was used to test therapeutic efficacy of THIO using cell viability assays, flow cytometric analyses, and immunofluorescence. Integrated analyses of RNA sequencing and reverse-phase protein array data revealed the potential antitumor mechanisms of THIO. Four patient-derived xenografts (PDX), two patientderived organoids (PDO), and two xenografts of human glioma cell lines were used to further investigate the therapeutic efficacy of THIO. Results: THIO was effective in the majority of human and mouse glioma cell lines with no obvious toxicity against normal astrocytes. THIO as a monotherapy demonstrated efficacy in three glioma cell lines that had acquired resistance to temozolomide. In addition, THIO showed efficacy in four human glioma cell lines grown as neurospheres by inducing apoptotic cell death. Mechanistically, THIO induced telomeric DNA damage not only in glioma cell lines but also in PDX tumor specimens. Integrated computational analyses of transcriptomic and proteomic data indicated that THIO significantly inhibited cell invasion, stem cell, and proliferation pathways while triggering DNA damage and apoptosis. Importantly, THIO significantly decreased tumor proliferation in two PDO models and reduced the tumor size of a glioblastoma xenograft and a PDX model. Conclusions: The current study established the therapeutic role of THIO in primary and recurrent gliomas and revealed the acute induction of telomeric DNA damage as a primary antitumor mechanism of THIO in gliomas.

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UR - http://www.scopus.com/inward/citedby.url?scp=85122397046&partnerID=8YFLogxK

U2 - 10.1158/1078-0432.CCR-21-0374

DO - 10.1158/1078-0432.CCR-21-0374

M3 - Article

C2 - 34593527

AN - SCOPUS:85122397046

SN - 1078-0432

VL - 27

SP - 6800

EP - 6814

JO - Clinical Cancer Research

JF - Clinical Cancer Research

IS - 24

ER -

A Modified Nucleoside 6-Thio-2'-Deoxyguanosine Exhibits Antitumor Activity in Gliomas

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