TET2 and DNMT3A mutations exert divergent effects on DNA repair and sensitivity of leukemia cells to PARP inhibitors

Silvia Maifrede; Bac Viet Le; Margaret Nieborowska-Skorska; Konstantin Golovine; Katherine Sullivan-Reed; Wangisa M.B. Dunuwille; Joseph Nacson; Michael Hulse; Kelsey Keith; Jozef Madzo; Lisa Beatrice Caruso; Zachary Gazze; Zhaorui Lian; Antonella Padella; Kumaraswamy N. Chitrala; Boris A. Bartholdy; Ksenia Matlawska-Wasowska; Daniela Di Marcantonio; Giorgia Simonetti; Georg Greiner; Stephen M. Sykes; Peter Valent; Elisabeth M. Paietta; Martin S. Tallman; Hugo F. Fernandez; Mark R. Litzow; Mark D. Minden; Jian Huang; Giovanni Martinelli; George S. Vassiliou; Italo Tempera; Katarzyna Piwocka; Neil Johnson; Grant A. Challen; Tomasz Skorski

doi:10.1158/0008-5472.CAN-20-3761

TET2 and DNMT3A mutations exert divergent effects on DNA repair and sensitivity of leukemia cells to PARP inhibitors

Silvia Maifrede, Bac Viet Le, Margaret Nieborowska-Skorska, Konstantin Golovine, Katherine Sullivan-Reed, Wangisa M.B. Dunuwille, Joseph Nacson, Michael Hulse, Kelsey Keith, Jozef Madzo, Lisa Beatrice Caruso, Zachary Gazze, Zhaorui Lian, Antonella Padella, Kumaraswamy N. Chitrala, Boris A. Bartholdy, Ksenia Matlawska-Wasowska, Daniela Di Marcantonio, Giorgia Simonetti, Georg GreinerStephen M. Sykes, Peter Valent, Elisabeth M. Paietta, Martin S. Tallman, Hugo F. Fernandez, Mark R. Litzow, Mark D. Minden, Jian Huang, Giovanni Martinelli, George S. Vassiliou, Italo Tempera, Katarzyna Piwocka, Neil Johnson, Grant A. Challen, Tomasz Skorski

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

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Abstract

Somatic variants in TET2 and DNMT3A are founding mutations in hematological malignancies that affect the epigenetic regulation of DNA methylation. Mutations in both genes often co-occur with activating mutations in genes encoding oncogenic tyrosine kinases such as FLT3^ITD, BCR-ABL1, JAK2^V617F, and MPL^W515L, or with mutations affecting related signaling pathways such as NRAS^G12D and CALR^del52. Here, we show that TET2 and DNMT3A mutations exert divergent roles in regulating DNA repair activities in leukemia cells expressing these oncogenes. Malignant TET2-deficient cells displayed downregulation of BRCA1 and LIG4, resulting in reduced activity of BRCA1/2-mediated homologous recombination (HR) and DNA-PK–mediated non-homologous end-joining (D-NHEJ), respectively. TET2-deficient cells relied on PARP1-mediated alternative NHEJ (Alt-NHEJ) for protection from the toxic effects of spontaneous and drug-induced DNA double-strand breaks. Conversely, DNMT3A-deficient cells favored HR/D-NHEJ owing to downregulation of PARP1 and reduction of Alt-NHEJ. Consequently, malignant TET2-deficient cells were sensitive to PARP inhibitor (PARPi) treatment in vitro and in vivo, whereas DNMT3Adeficient cells were resistant. Disruption of TET2 dioxygenase activity or TET2—Wilms’ tumor 1 (WT1)–binding ability was responsible for DNA repair defects and sensitivity to PARPi associated with TET2 deficiency. Moreover, mutation or deletion of WT1 mimicked the effect of TET2 mutation on DSB repair activity and sensitivity to PARPi. Collectively, these findings reveal that TET2 and WT1 mutations may serve as biomarkers of synthetic lethality triggered by PARPi, which should be explored therapeutically.

Original language	English (US)
Pages (from-to)	5089-5101
Number of pages	13
Journal	Cancer research
Volume	81
Issue number	19
DOIs	https://doi.org/10.1158/0008-5472.CAN-20-3761
State	Published - Oct 1 2021

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Oncology
Cancer Research

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10.1158/0008-5472.CAN-20-3761

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Maifrede, S., Le, B. V., Nieborowska-Skorska, M., Golovine, K., Sullivan-Reed, K., Dunuwille, W. M. B., Nacson, J., Hulse, M., Keith, K., Madzo, J., Caruso, L. B., Gazze, Z., Lian, Z., Padella, A., Chitrala, K. N., Bartholdy, B. A., Matlawska-Wasowska, K., Marcantonio, D. D., Simonetti, G., ... Skorski, T. (2021). TET2 and DNMT3A mutations exert divergent effects on DNA repair and sensitivity of leukemia cells to PARP inhibitors. Cancer research, 81(19), 5089-5101. https://doi.org/10.1158/0008-5472.CAN-20-3761

Maifrede, S, Le, BV, Nieborowska-Skorska, M, Golovine, K, Sullivan-Reed, K, Dunuwille, WMB, Nacson, J, Hulse, M, Keith, K, Madzo, J, Caruso, LB, Gazze, Z, Lian, Z, Padella, A, Chitrala, KN, Bartholdy, BA, Matlawska-Wasowska, K, Marcantonio, DD, Simonetti, G, Greiner, G, Sykes, SM, Valent, P, Paietta, EM, Tallman, MS, Fernandez, HF, Litzow, MR, Minden, MD, Huang, J, Martinelli, G, Vassiliou, GS, Tempera, I, Piwocka, K, Johnson, N, Challen, GA & Skorski, T 2021, 'TET2 and DNMT3A mutations exert divergent effects on DNA repair and sensitivity of leukemia cells to PARP inhibitors', Cancer research, vol. 81, no. 19, pp. 5089-5101. https://doi.org/10.1158/0008-5472.CAN-20-3761

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title = "TET2 and DNMT3A mutations exert divergent effects on DNA repair and sensitivity of leukemia cells to PARP inhibitors",

abstract = "Somatic variants in TET2 and DNMT3A are founding mutations in hematological malignancies that affect the epigenetic regulation of DNA methylation. Mutations in both genes often co-occur with activating mutations in genes encoding oncogenic tyrosine kinases such as FLT3ITD, BCR-ABL1, JAK2V617F, and MPLW515L, or with mutations affecting related signaling pathways such as NRASG12D and CALRdel52. Here, we show that TET2 and DNMT3A mutations exert divergent roles in regulating DNA repair activities in leukemia cells expressing these oncogenes. Malignant TET2-deficient cells displayed downregulation of BRCA1 and LIG4, resulting in reduced activity of BRCA1/2-mediated homologous recombination (HR) and DNA-PK–mediated non-homologous end-joining (D-NHEJ), respectively. TET2-deficient cells relied on PARP1-mediated alternative NHEJ (Alt-NHEJ) for protection from the toxic effects of spontaneous and drug-induced DNA double-strand breaks. Conversely, DNMT3A-deficient cells favored HR/D-NHEJ owing to downregulation of PARP1 and reduction of Alt-NHEJ. Consequently, malignant TET2-deficient cells were sensitive to PARP inhibitor (PARPi) treatment in vitro and in vivo, whereas DNMT3Adeficient cells were resistant. Disruption of TET2 dioxygenase activity or TET2—Wilms{\textquoteright} tumor 1 (WT1)–binding ability was responsible for DNA repair defects and sensitivity to PARPi associated with TET2 deficiency. Moreover, mutation or deletion of WT1 mimicked the effect of TET2 mutation on DSB repair activity and sensitivity to PARPi. Collectively, these findings reveal that TET2 and WT1 mutations may serve as biomarkers of synthetic lethality triggered by PARPi, which should be explored therapeutically.",

author = "Silvia Maifrede and Le, {Bac Viet} and Margaret Nieborowska-Skorska and Konstantin Golovine and Katherine Sullivan-Reed and Dunuwille, {Wangisa M.B.} and Joseph Nacson and Michael Hulse and Kelsey Keith and Jozef Madzo and Caruso, {Lisa Beatrice} and Zachary Gazze and Zhaorui Lian and Antonella Padella and Chitrala, {Kumaraswamy N.} and Bartholdy, {Boris A.} and Ksenia Matlawska-Wasowska and Marcantonio, {Daniela Di} and Giorgia Simonetti and Georg Greiner and Sykes, {Stephen M.} and Peter Valent and Paietta, {Elisabeth M.} and Tallman, {Martin S.} and Fernandez, {Hugo F.} and Litzow, {Mark R.} and Minden, {Mark D.} and Jian Huang and Giovanni Martinelli and Vassiliou, {George S.} and Italo Tempera and Katarzyna Piwocka and Neil Johnson and Challen, {Grant A.} and Tomasz Skorski",

note = "Publisher Copyright: {\textcopyright} 2021 American Association for Cancer Research",

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doi = "10.1158/0008-5472.CAN-20-3761",

language = "English (US)",

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T1 - TET2 and DNMT3A mutations exert divergent effects on DNA repair and sensitivity of leukemia cells to PARP inhibitors

AU - Maifrede, Silvia

AU - Le, Bac Viet

AU - Nieborowska-Skorska, Margaret

AU - Golovine, Konstantin

AU - Sullivan-Reed, Katherine

AU - Dunuwille, Wangisa M.B.

AU - Nacson, Joseph

AU - Hulse, Michael

AU - Keith, Kelsey

AU - Madzo, Jozef

AU - Caruso, Lisa Beatrice

AU - Gazze, Zachary

AU - Lian, Zhaorui

AU - Padella, Antonella

AU - Chitrala, Kumaraswamy N.

AU - Bartholdy, Boris A.

AU - Matlawska-Wasowska, Ksenia

AU - Marcantonio, Daniela Di

AU - Simonetti, Giorgia

AU - Greiner, Georg

AU - Sykes, Stephen M.

AU - Valent, Peter

AU - Paietta, Elisabeth M.

AU - Tallman, Martin S.

AU - Fernandez, Hugo F.

AU - Litzow, Mark R.

AU - Minden, Mark D.

AU - Huang, Jian

AU - Martinelli, Giovanni

AU - Vassiliou, George S.

AU - Tempera, Italo

AU - Piwocka, Katarzyna

AU - Johnson, Neil

AU - Challen, Grant A.

AU - Skorski, Tomasz

PY - 2021/10/1

Y1 - 2021/10/1

N2 - Somatic variants in TET2 and DNMT3A are founding mutations in hematological malignancies that affect the epigenetic regulation of DNA methylation. Mutations in both genes often co-occur with activating mutations in genes encoding oncogenic tyrosine kinases such as FLT3ITD, BCR-ABL1, JAK2V617F, and MPLW515L, or with mutations affecting related signaling pathways such as NRASG12D and CALRdel52. Here, we show that TET2 and DNMT3A mutations exert divergent roles in regulating DNA repair activities in leukemia cells expressing these oncogenes. Malignant TET2-deficient cells displayed downregulation of BRCA1 and LIG4, resulting in reduced activity of BRCA1/2-mediated homologous recombination (HR) and DNA-PK–mediated non-homologous end-joining (D-NHEJ), respectively. TET2-deficient cells relied on PARP1-mediated alternative NHEJ (Alt-NHEJ) for protection from the toxic effects of spontaneous and drug-induced DNA double-strand breaks. Conversely, DNMT3A-deficient cells favored HR/D-NHEJ owing to downregulation of PARP1 and reduction of Alt-NHEJ. Consequently, malignant TET2-deficient cells were sensitive to PARP inhibitor (PARPi) treatment in vitro and in vivo, whereas DNMT3Adeficient cells were resistant. Disruption of TET2 dioxygenase activity or TET2—Wilms’ tumor 1 (WT1)–binding ability was responsible for DNA repair defects and sensitivity to PARPi associated with TET2 deficiency. Moreover, mutation or deletion of WT1 mimicked the effect of TET2 mutation on DSB repair activity and sensitivity to PARPi. Collectively, these findings reveal that TET2 and WT1 mutations may serve as biomarkers of synthetic lethality triggered by PARPi, which should be explored therapeutically.

AB - Somatic variants in TET2 and DNMT3A are founding mutations in hematological malignancies that affect the epigenetic regulation of DNA methylation. Mutations in both genes often co-occur with activating mutations in genes encoding oncogenic tyrosine kinases such as FLT3ITD, BCR-ABL1, JAK2V617F, and MPLW515L, or with mutations affecting related signaling pathways such as NRASG12D and CALRdel52. Here, we show that TET2 and DNMT3A mutations exert divergent roles in regulating DNA repair activities in leukemia cells expressing these oncogenes. Malignant TET2-deficient cells displayed downregulation of BRCA1 and LIG4, resulting in reduced activity of BRCA1/2-mediated homologous recombination (HR) and DNA-PK–mediated non-homologous end-joining (D-NHEJ), respectively. TET2-deficient cells relied on PARP1-mediated alternative NHEJ (Alt-NHEJ) for protection from the toxic effects of spontaneous and drug-induced DNA double-strand breaks. Conversely, DNMT3A-deficient cells favored HR/D-NHEJ owing to downregulation of PARP1 and reduction of Alt-NHEJ. Consequently, malignant TET2-deficient cells were sensitive to PARP inhibitor (PARPi) treatment in vitro and in vivo, whereas DNMT3Adeficient cells were resistant. Disruption of TET2 dioxygenase activity or TET2—Wilms’ tumor 1 (WT1)–binding ability was responsible for DNA repair defects and sensitivity to PARPi associated with TET2 deficiency. Moreover, mutation or deletion of WT1 mimicked the effect of TET2 mutation on DSB repair activity and sensitivity to PARPi. Collectively, these findings reveal that TET2 and WT1 mutations may serve as biomarkers of synthetic lethality triggered by PARPi, which should be explored therapeutically.

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DO - 10.1158/0008-5472.CAN-20-3761

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SN - 0008-5472

VL - 81

SP - 5089

EP - 5101

JO - Cancer research

JF - Cancer research

IS - 19

ER -

TET2 and DNMT3A mutations exert divergent effects on DNA repair and sensitivity of leukemia cells to PARP inhibitors

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