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. 2023 Jan;37(1):143-153.
doi: 10.1038/s41375-022-01755-2. Epub 2022 Nov 18.

Targeting cell cycle and apoptosis to overcome chemotherapy resistance in acute myeloid leukemia

Victoria Y Ling  1   2   3 Jasmin Straube  1   2 William Godfrey  1 Rohit Haldar  1 Yashaswini Janardhanan  1 Leanne Cooper  1 Claudia Bruedigam  1   2 Emily Cooper  1 Paniz Tavakoli Shirazi  1 Sebastien Jacquelin  4 Siok-Keen Tey  1   2   5 Jonathan Baell  6   7 Fei Huang  7 Jianwen Jin  6 Yichao Zhao  6 Lars Bullinger  8 Megan J Bywater #  9   10 Steven W Lane #  11   12   13
Affiliations

Targeting cell cycle and apoptosis to overcome chemotherapy resistance in acute myeloid leukemia

Victoria Y Ling et al. Leukemia. 2023 Jan.

Abstract

Chemotherapy-resistant acute myeloid leukemia (AML), frequently driven by clonal evolution, has a dismal prognosis. A genome-wide CRISPR knockout screen investigating resistance to doxorubicin and cytarabine (Dox/AraC) in human AML cell lines identified gene knockouts involving AraC metabolism and genes that regulate cell cycle arrest (cyclin dependent kinase inhibitor 2A (CDKN2A), checkpoint kinase 2 (CHEK2) and TP53) as contributing to resistance. In human AML cohorts, reduced expression of CDKN2A conferred inferior overall survival and CDKN2A downregulation occurred at relapse in paired diagnosis-relapse samples, validating its clinical relevance. Therapeutically targeting the G1S cell cycle restriction point (with CDK4/6 inhibitor, palbociclib and KAT6A inhibitor, WM-1119, to upregulate CDKN2A) synergized with chemotherapy. Additionally, direct promotion of apoptosis with venetoclax, showed substantial synergy with chemotherapy, overcoming resistance mediated by impaired cell cycle arrest. Altogether, we identify defective cell cycle arrest as a clinically relevant contributor to chemoresistance and identify rationally designed therapeutic combinations that enhance response in AML, potentially circumventing chemoresistance.

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