Concomitant inhibition of the thioredoxin system and nonhomologous DNA repair potently sensitizes Philadelphia‐positive lymphoid leukemia to tyrosine kinase inhibitors
Lukasz Komorowski,
Agnieszka Dabkowska,
Joanna Madzio,
Agata Pastorczak,
Kacper Szczygiel,
Martyna Janowska,
Klaudyna Fidyt,
Maksymilian Bielecki,
Jaromir Hunia,
Malgorzata Bajor,
Tomasz Stoklosa,
Magdalena Winiarska,
Elzbieta Patkowska,
Malgorzata Firczuk
Affiliations
Lukasz Komorowski
Department of Immunology Medical University of Warsaw Warsaw Poland
Agnieszka Dabkowska
Department of Immunology Medical University of Warsaw Warsaw Poland
Joanna Madzio
Department of Pediatrics, Oncology and Hematology Medical University of Lodz Lodz Poland
Agata Pastorczak
Department of Pediatrics, Oncology and Hematology Medical University of Lodz Lodz Poland
Kacper Szczygiel
Department of Immunology Medical University of Warsaw Warsaw Poland
Martyna Janowska
Laboratory of Immunology, Mossakowski Medical Research Institute Polish Academy of Sciences Warsaw Poland
Klaudyna Fidyt
Department of Immunology Medical University of Warsaw Warsaw Poland
Maksymilian Bielecki
Department of Psychology SWPS University of Social Sciences and Humanities Warsaw Poland
Jaromir Hunia
Department of Immunology Medical University of Warsaw Warsaw Poland
Malgorzata Bajor
Laboratory of Immunology, Mossakowski Medical Research Institute Polish Academy of Sciences Warsaw Poland
Tomasz Stoklosa
Department of Tumor Biology and Genetics Medical University of Warsaw Warsaw Poland
Magdalena Winiarska
Department of Immunology Medical University of Warsaw Warsaw Poland
Elzbieta Patkowska
Institute of Hematology and Transfusion Medicine Warsaw Poland
Malgorzata Firczuk
Department of Immunology Medical University of Warsaw Warsaw Poland
Abstract Breakpoint cluster region‐Abelson (BCR::ABL1) gene fusion is an essential oncogene in both chronic myeloid leukemia (CML) and Philadelphia‐positive (Ph+) B‐cell acute lymphoblastic leukemia (B‐ALL). While tyrosine kinase inhibitors (TKIs) are effective in up to 95% of CML patients, 50% of Ph+ B‐ALL cases do not respond to treatment or relapse. This calls for new therapeutic approaches for Ph+ B‐ALL. Previous studies have shown that inhibitors of the thioredoxin (TXN) system exert antileukemic activity against B‐ALL cells, particularly in combination with other drugs. Here, we present that peroxiredoxin‐1 (PRDX1), one of the enzymes of the TXN system, is upregulated in Ph+ lymphoid as compared to Ph+ myeloid cells. PRDX1 knockout negatively affects the viability of Ph+ B‐ALL cells and sensitizes them to TKIs. Analysis of global gene expression changes in imatinib‐treated, PRDX1‐deficient cells revealed that the nonhomologous end‐joining (NHEJ) DNA repair is a novel vulnerability of Ph+ B‐ALL cells. Accordingly, PRDX1‐deficient Ph+ B‐ALL cells were susceptible to NHEJ inhibitors. Finally, we demonstrated the potent efficacy of a novel combination of TKIs, TXN inhibitors, and NHEJ inhibitors against Ph+ B‐ALL cell lines and primary cells, which can be further investigated as a potential therapeutic approach for the treatment of Ph+ B‐ALL.
