DNA polymerase θ protects leukemia cells from metabolically induced DNA damage

Umeshkumar Vekariya; Monika Toma; Margaret Nieborowska-Skorska; Bac Viet Le; Marie Christine Caron; Anna Mariya Kukuyan; Katherine Sullivan-Reed; Paulina Podszywalow-Bartnicka; Kumaraswamy N. Chitrala; Jessica Atkins; Malgorzata Drzewiecka; Wanjuan Feng; Joe Chan; Srinivas Chatla; Konstantin Golovine; Jaroslav Jelinek; Tomasz Sliwinski; Jayashri Ghosh; Ksenia Matlawska-Wasowska; Gurushankar Chandramouly; Reza Nejati; Mariusz Wasik; Stephen M. Sykes; Katarzyna Piwocka; Emir Hadzijusufovic; Peter Valent; Richard T. Pomerantz; George Morton; Wayne Childers; Huaqing Zhao; Elisabeth M. Paietta; Ross L. Levine; Martin S. Tallman; Hugo F. Fernandez; Mark R. Litzow; Gaorav P. Gupta; Jean Yves Masson; Tomasz Skorski

doi:10.1182/blood.2022018428

DNA polymerase θ protects leukemia cells from metabolically induced DNA damage

Umeshkumar Vekariya, Monika Toma, Margaret Nieborowska-Skorska, Bac Viet Le, Marie Christine Caron, Anna Mariya Kukuyan, Katherine Sullivan-Reed, Paulina Podszywalow-Bartnicka, Kumaraswamy N. Chitrala, Jessica Atkins, Malgorzata Drzewiecka, Wanjuan Feng, Joe Chan, Srinivas Chatla, Konstantin Golovine, Jaroslav Jelinek, Tomasz Sliwinski, Jayashri Ghosh, Ksenia Matlawska-Wasowska, Gurushankar ChandramoulyReza Nejati, Mariusz Wasik, Stephen M. Sykes, Katarzyna Piwocka, Emir Hadzijusufovic, Peter Valent, Richard T. Pomerantz, George Morton, Wayne Childers, Huaqing Zhao, Elisabeth M. Paietta, Ross L. Levine, Martin S. Tallman, Hugo F. Fernandez, Mark R. Litzow, Gaorav P. Gupta, Jean Yves Masson, Tomasz Skorski

Oncology

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

4 Scopus citations

Abstract

Leukemia cells accumulate DNA damage, but altered DNA repair mechanisms protect them from apoptosis. We showed here that formaldehyde generated by serine/1-carbon cycle metabolism contributed to the accumulation of toxic DNA-protein crosslinks (DPCs) in leukemia cells, especially in driver clones harboring oncogenic tyrosine kinases (OTKs: FLT3(internal tandem duplication [ITD]), JAK2(V617F), BCR-ABL1). To counteract this effect, OTKs enhanced the expression of DNA polymerase theta (POLθ) via ERK1/2 serine/threonine kinase-dependent inhibition of c-CBL E3 ligase-mediated ubiquitination of POLθ and its proteasomal degradation. Overexpression of POLθ in OTK-positive cells resulted in the efficient repair of DPC-containing DNA double-strand breaks by POLθ-mediated end-joining. The transforming activities of OTKs and other leukemia-inducing oncogenes, especially of those causing the inhibition of BRCA1/2-mediated homologous recombination with and without concomitant inhibition of DNA-PK–dependent nonhomologous end-joining, was abrogated in Polq−/− murine bone marrow cells. Genetic and pharmacological targeting of POLθ polymerase and helicase activities revealed that both activities are promising targets in leukemia cells. Moreover, OTK inhibitors or DPC-inducing drug etoposide enhanced the antileukemia effect of POLθ inhibitor in vitro and in vivo. In conclusion, we demonstrated that POLθ plays an essential role in protecting leukemia cells from metabolically induced toxic DNA lesions triggered by formaldehyde, and it can be targeted to achieve a therapeutic effect.

Original language	English (US)
Pages (from-to)	2372-2389
Number of pages	18
Journal	Blood
Volume	141
Issue number	19
DOIs	https://doi.org/10.1182/blood.2022018428
State	Published - May 11 2023

ASJC Scopus subject areas

Biochemistry
Immunology
Hematology
Cell Biology

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Vekariya, U., Toma, M., Nieborowska-Skorska, M., Le, B. V., Caron, M. C., Kukuyan, A. M., Sullivan-Reed, K., Podszywalow-Bartnicka, P., Chitrala, K. N., Atkins, J., Drzewiecka, M., Feng, W., Chan, J., Chatla, S., Golovine, K., Jelinek, J., Sliwinski, T., Ghosh, J., Matlawska-Wasowska, K., ... Skorski, T. (2023). DNA polymerase θ protects leukemia cells from metabolically induced DNA damage. Blood, 141(19), 2372-2389. https://doi.org/10.1182/blood.2022018428

Vekariya, U, Toma, M, Nieborowska-Skorska, M, Le, BV, Caron, MC, Kukuyan, AM, Sullivan-Reed, K, Podszywalow-Bartnicka, P, Chitrala, KN, Atkins, J, Drzewiecka, M, Feng, W, Chan, J, Chatla, S, Golovine, K, Jelinek, J, Sliwinski, T, Ghosh, J, Matlawska-Wasowska, K, Chandramouly, G, Nejati, R, Wasik, M, Sykes, SM, Piwocka, K, Hadzijusufovic, E, Valent, P, Pomerantz, RT, Morton, G, Childers, W, Zhao, H, Paietta, EM, Levine, RL, Tallman, MS, Fernandez, HF, Litzow, MR, Gupta, GP, Masson, JY & Skorski, T 2023, 'DNA polymerase θ protects leukemia cells from metabolically induced DNA damage', Blood, vol. 141, no. 19, pp. 2372-2389. https://doi.org/10.1182/blood.2022018428

@article{33cfbfc3bcd743599fc9d3ee6b8d3c61,

title = "DNA polymerase θ protects leukemia cells from metabolically induced DNA damage",

abstract = "Leukemia cells accumulate DNA damage, but altered DNA repair mechanisms protect them from apoptosis. We showed here that formaldehyde generated by serine/1-carbon cycle metabolism contributed to the accumulation of toxic DNA-protein crosslinks (DPCs) in leukemia cells, especially in driver clones harboring oncogenic tyrosine kinases (OTKs: FLT3(internal tandem duplication [ITD]), JAK2(V617F), BCR-ABL1). To counteract this effect, OTKs enhanced the expression of DNA polymerase theta (POLθ) via ERK1/2 serine/threonine kinase-dependent inhibition of c-CBL E3 ligase-mediated ubiquitination of POLθ and its proteasomal degradation. Overexpression of POLθ in OTK-positive cells resulted in the efficient repair of DPC-containing DNA double-strand breaks by POLθ-mediated end-joining. The transforming activities of OTKs and other leukemia-inducing oncogenes, especially of those causing the inhibition of BRCA1/2-mediated homologous recombination with and without concomitant inhibition of DNA-PK–dependent nonhomologous end-joining, was abrogated in Polq−/− murine bone marrow cells. Genetic and pharmacological targeting of POLθ polymerase and helicase activities revealed that both activities are promising targets in leukemia cells. Moreover, OTK inhibitors or DPC-inducing drug etoposide enhanced the antileukemia effect of POLθ inhibitor in vitro and in vivo. In conclusion, we demonstrated that POLθ plays an essential role in protecting leukemia cells from metabolically induced toxic DNA lesions triggered by formaldehyde, and it can be targeted to achieve a therapeutic effect.",

author = "Umeshkumar Vekariya and Monika Toma and Margaret Nieborowska-Skorska and Le, {Bac Viet} and Caron, {Marie Christine} and Kukuyan, {Anna Mariya} and Katherine Sullivan-Reed and Paulina Podszywalow-Bartnicka and Chitrala, {Kumaraswamy N.} and Jessica Atkins and Malgorzata Drzewiecka and Wanjuan Feng and Joe Chan and Srinivas Chatla and Konstantin Golovine and Jaroslav Jelinek and Tomasz Sliwinski and Jayashri Ghosh and Ksenia Matlawska-Wasowska and Gurushankar Chandramouly and Reza Nejati and Mariusz Wasik and Sykes, {Stephen M.} and Katarzyna Piwocka and Emir Hadzijusufovic and Peter Valent and Pomerantz, {Richard T.} and George Morton and Wayne Childers and Huaqing Zhao and Paietta, {Elisabeth M.} and Levine, {Ross L.} and Tallman, {Martin S.} and Fernandez, {Hugo F.} and Litzow, {Mark R.} and Gupta, {Gaorav P.} and Masson, {Jean Yves} and Tomasz Skorski",

note = "Publisher Copyright: {\textcopyright} 2023 The American Society of Hematology",

year = "2023",

month = may,

day = "11",

doi = "10.1182/blood.2022018428",

language = "English (US)",

volume = "141",

pages = "2372--2389",

journal = "Blood",

issn = "0006-4971",

publisher = "American Society of Hematology",

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TY - JOUR

T1 - DNA polymerase θ protects leukemia cells from metabolically induced DNA damage

AU - Vekariya, Umeshkumar

AU - Toma, Monika

AU - Nieborowska-Skorska, Margaret

AU - Le, Bac Viet

AU - Caron, Marie Christine

AU - Kukuyan, Anna Mariya

AU - Sullivan-Reed, Katherine

AU - Podszywalow-Bartnicka, Paulina

AU - Chitrala, Kumaraswamy N.

AU - Atkins, Jessica

AU - Drzewiecka, Malgorzata

AU - Feng, Wanjuan

AU - Chan, Joe

AU - Chatla, Srinivas

AU - Golovine, Konstantin

AU - Jelinek, Jaroslav

AU - Sliwinski, Tomasz

AU - Ghosh, Jayashri

AU - Matlawska-Wasowska, Ksenia

AU - Chandramouly, Gurushankar

AU - Nejati, Reza

AU - Wasik, Mariusz

AU - Sykes, Stephen M.

AU - Piwocka, Katarzyna

AU - Hadzijusufovic, Emir

AU - Valent, Peter

AU - Pomerantz, Richard T.

AU - Morton, George

AU - Childers, Wayne

AU - Zhao, Huaqing

AU - Paietta, Elisabeth M.

AU - Levine, Ross L.

AU - Tallman, Martin S.

AU - Fernandez, Hugo F.

AU - Litzow, Mark R.

AU - Gupta, Gaorav P.

AU - Masson, Jean Yves

AU - Skorski, Tomasz

PY - 2023/5/11

Y1 - 2023/5/11

N2 - Leukemia cells accumulate DNA damage, but altered DNA repair mechanisms protect them from apoptosis. We showed here that formaldehyde generated by serine/1-carbon cycle metabolism contributed to the accumulation of toxic DNA-protein crosslinks (DPCs) in leukemia cells, especially in driver clones harboring oncogenic tyrosine kinases (OTKs: FLT3(internal tandem duplication [ITD]), JAK2(V617F), BCR-ABL1). To counteract this effect, OTKs enhanced the expression of DNA polymerase theta (POLθ) via ERK1/2 serine/threonine kinase-dependent inhibition of c-CBL E3 ligase-mediated ubiquitination of POLθ and its proteasomal degradation. Overexpression of POLθ in OTK-positive cells resulted in the efficient repair of DPC-containing DNA double-strand breaks by POLθ-mediated end-joining. The transforming activities of OTKs and other leukemia-inducing oncogenes, especially of those causing the inhibition of BRCA1/2-mediated homologous recombination with and without concomitant inhibition of DNA-PK–dependent nonhomologous end-joining, was abrogated in Polq−/− murine bone marrow cells. Genetic and pharmacological targeting of POLθ polymerase and helicase activities revealed that both activities are promising targets in leukemia cells. Moreover, OTK inhibitors or DPC-inducing drug etoposide enhanced the antileukemia effect of POLθ inhibitor in vitro and in vivo. In conclusion, we demonstrated that POLθ plays an essential role in protecting leukemia cells from metabolically induced toxic DNA lesions triggered by formaldehyde, and it can be targeted to achieve a therapeutic effect.

AB - Leukemia cells accumulate DNA damage, but altered DNA repair mechanisms protect them from apoptosis. We showed here that formaldehyde generated by serine/1-carbon cycle metabolism contributed to the accumulation of toxic DNA-protein crosslinks (DPCs) in leukemia cells, especially in driver clones harboring oncogenic tyrosine kinases (OTKs: FLT3(internal tandem duplication [ITD]), JAK2(V617F), BCR-ABL1). To counteract this effect, OTKs enhanced the expression of DNA polymerase theta (POLθ) via ERK1/2 serine/threonine kinase-dependent inhibition of c-CBL E3 ligase-mediated ubiquitination of POLθ and its proteasomal degradation. Overexpression of POLθ in OTK-positive cells resulted in the efficient repair of DPC-containing DNA double-strand breaks by POLθ-mediated end-joining. The transforming activities of OTKs and other leukemia-inducing oncogenes, especially of those causing the inhibition of BRCA1/2-mediated homologous recombination with and without concomitant inhibition of DNA-PK–dependent nonhomologous end-joining, was abrogated in Polq−/− murine bone marrow cells. Genetic and pharmacological targeting of POLθ polymerase and helicase activities revealed that both activities are promising targets in leukemia cells. Moreover, OTK inhibitors or DPC-inducing drug etoposide enhanced the antileukemia effect of POLθ inhibitor in vitro and in vivo. In conclusion, we demonstrated that POLθ plays an essential role in protecting leukemia cells from metabolically induced toxic DNA lesions triggered by formaldehyde, and it can be targeted to achieve a therapeutic effect.

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U2 - 10.1182/blood.2022018428

DO - 10.1182/blood.2022018428

M3 - Article

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AN - SCOPUS:85153949518

SN - 0006-4971

VL - 141

SP - 2372

EP - 2389

JO - Blood

JF - Blood

IS - 19

ER -

DNA polymerase θ protects leukemia cells from metabolically induced DNA damage

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