The ABL1 proto-oncogene encodes a cytoplasmic and nuclear protein tyrosine kinase. Cytoplasmic ABL1 stimulates, whereas nuclear ABL1 inhibits cell growth. Analysis of the CGAP Mitelman database detected loss of ABL1 allele in hematologic malignancies. Among the top genetic aberrations detected in acute myeloid leukemias were t(8;21) generating fusion protein AML1-ETO and NUP98 translocations, e.g., t(1;11) encoding NUP98-PMX1.Expression of AML1-ETO and NUP98-PMX1 in Lin-cKit+ stem cell enriched bone marrow cells from Abl1-/-;Vav-Cre and Abl1+/+;Vav-Cre mice revealed that oncogene-expressing Abl1-/- cells gained tremendous proliferation advantage. Conversely, overexpression of ABL1 and DPH (ABL1 kinase agonist)-mediated activation of ABL1 kinase resulted in reduced proliferation of AML1-ETO and NUP98-PMX1 cells. Since the role of ABL1 in DNA damage response (DDR) is well established, we applied the inhibitors of ATM (ATMi), ATR (ATRi) and DNA-PKcs (DNA-PKi) to identify potential therapeutic vulnerabilities. AML1-ETO;Abl1-/- cells were more sensitive to all three inhibitors when compared to AML1-ETO;Abl1+/+ cells. Remarkably, NUP98-PMX1;Abl1-/- cells were exceptionally sensitive to ATRi, but not to ATMi and DNA-PKi when compared to NUP98-PMX1;Abl+/+ cells. ABL1 did not affect the sensitivity of transformed cells to DNA damaging agent doxorubicin. To pinpoint mechanisms collaborating with Abl1 deletion in transformation of hematopoietic cells, Abl1 was knockout in 32Dcl3 cells by CRISPR/Cas9 to obtain 32Dcl3-Abl1ko cells. 32Dcl3-Abl1wt and 32Dcl3-Abl1ko cells were challenged to induce transformation by starving them from growth factors (IL3). Only 32Dcl3-Abl1ko cell populations generated growth factor-independent cells. This indicates that the absence of Abl1 may facilitate malignant transformation of hematopoietic cells. RNA-seq was performed to compare gene expression in 32Dcl3-Abl1wt and 32Dcl3-Abl1ko cells in the presence or absence of IL-3. Pathway analysis of FPKM reads (top 30 significant canonical pathways) and Venn diagram analysis followed by KEGG pathway analysis (291 genes uniquely expressed in growth factor-independent 32Dcl3-Abl1ko cells) implicated PI3K-AKT pathway signaling including mTOR and sirtuins (SITR) in 32Dcl3-Abl1ko cells. PI3K inhibitor buparlisib, mTOR inhibitor rapamycin and SIRT2 inhibitor thiomyristoyl exerted selective activity against Lin-cKit+ AML1-ETO;Abl1-/- and/or NUP98-PMX1;Abl1-/- cells when compared to Abl1+/+ counterparts. Moreover, inhibition of ABL1 kinase by imatinib in Lin-cKit+ AML1-ETO;Abl1+/+ and/or NUP98-PMX1;Abl+/+ cells induced the sensitivity to PI3K-ATK pathway inhibitors. In conclusion, we showed that normal ABL1 kinase plays a tumor suppressor role and is a potential therapeutic target in hematological malignancies induced by AML1-ETO and NUP98-PMX1. The latter statement is being currently tested in animal models. Citation Format: Konstantin Golovine, Zhaorui Lian, Kumaraswamy Naidu Chitrala, Gleb Ablakov, Margaret Nieborowska-Skorska, Jian Huang, Tomasz Skorski. ABL1 kinase regulates leukemia phenotype and response to therapy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 823.
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