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UTX and MBD3 Epistasis Regulates Rac Gtpase Activation and Sensitizes Human Acute Myeloid Leukemia Cells to Dock Inhibition

Chatterjee, Shankha Subhra ; Biswas, Mayukh ; Boila, Liberalis Debraj ; [et al.]

American Society of Hematology ; 2018

In: Blood Vol. 132, No. Supplement 1 ( 2018-11-29), p. 3880-3880

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In: Blood, American Society of Hematology, Vol. 132, No. Supplement 1 ( 2018-11-29), p. 3880-3880

Abstract: Transcriptional plasticity is an evolving phenomenon in cancer biology. Mutational profiling alone may not suffice to dissect transcriptional dependency and underlying epigenetic vulnerabilities in tumorigenesis. Histone 3 lysine 27 (H3K27) demethylases (UTX, UTY and JMJD3) critically regulate transcriptional architecture. Recently it has been demonstrated that Utx (Kdm6a) plays tumor suppressor role in myeloid leukemogenesis through noncatalytic activity (Gozdecka M, et al., Nat Genet, 2018). Conditional (Mx1-Cre) deletion of Utx caused development of acute myeloid leukemia (AML) in ~ 60% of the mice; wherein, only Utx-/-, but not Utx+/-, aged (22 months) mice presented with AML. Paradoxically, previous report suggested that Utx conditional (Vav1-Cre) knock out male/female mice did not develop leukemia over 18 months (Tian, L., et al., Blood, 2015). In our recent report we have identified that expression of UTX is significantly increased in human primary AML, and pharmacological inhibition of H3K27 demethylase catalytic activity attenuated survival of AML cells (Boila L.D. et al,. Exp Hematol, 2017). Therefore the contribution of UTX in AML pathogenesis remains context dependent, and probably contentious, and warrants further investigations. ATP-dependent chromatin remodelers have been implicated in AML pathobiology (Chatterjee S.S., et al., Mol Cancer Res, 2018). We reported that loss of MBD3, a scaffold of NuRD chromatin remodeler, in human primary AML cells associates with nucleation of leukemic NuRD (Biswas M et al., Blood, 2017). Loss of Mbd3(Vav1-Cre) has been shown to disrupt NuRD complex integrity and causes T-cell lymphoma, suggesting tissue-specific function of NuRD (Loughran, S.J., et al., J Exp Med, 2017). Interestingly, in our present study we have identified for the first time that endogenous UTX, but not JMJD3, reversibly co-immunoprecipitates with NuRD in AML cells. These findings led us to test the hypothesis whether UTX would participate with NuRD in AML. ChIP-seq analysis in AML blasts using antibodies against UTX and CHD4 (intact ATPase component of leukemic NuRD) along with H3K27ac identified the co-localized genes. ChIP-qPCR, transcriptome, pathway analysis (P 〈 0.001) performed in paired AML, and MBD3loss of function experiments suggested an enrichment of Dedicator of Cytokinesis (DOCK) transcripts as bona fide effectors of UTX and NuRD in AML. DOCK proteins are conserved atypical guanine nucleotide exchange factors (GEFs) for Rho GTPase activation, regulating cell motility and invasion. Earlier we had shown that small GTPases regulate myeloid leukemia cell engraftment, survival in vivo (Sengupta A et al., Blood, 2010). DOCK1 upregulation is associated with a poor prognosis in AML (Hwei, L.S., Blood, 2016). TCGA cross-cancer analysis showed that UTX is maximally expressed, whereas MBD3 is downregulated in AML among all cancer types. Consistent with this observation, DOCK expression was significantly (P 〈 0.001) increased in MBD3loUTXhi AML cohort compared to MBD3hiUTXlo AML. Importantly, MBD3loUTXhi patients have relatively poor survival compared to MBD3hiUTXhi individuals, indicating that a combination of high UTX and low MBD3 expression could be a marker of poor prognosis in AML. Mechanistically, MBD3 deficiency caused loss of HDAC1 occupancy with a corresponding increase in UTX, CBP and H3K27ac on target DOCK loci leading to de-repression of gene expression. In agreement with this finding, loss of MBD3 resulted in ~ 2-fold increase in active Rac GTP and promoted AML cell migration to CXCL12. Interestingly, UTX silencing opposed DOCK expression, Rac activation and reversed hyper-migratory phenotype of MBD3-deficient AML cells. Together, these data account for UTX and MBD3 epistasis in regulating DOCK-Rac signalling in AML. Finally, treatment with DOCK inhibitor CPYPP dramatically inhibited survival of AML cells while having minimal effect on the survival of normal CD34+ cells. In unison, our findings highlight UTX as a putative oncogene in conjunction with leukemic NuRDand posit DOCK proteins as an important target of UTX-NuRD axis in human AML cells. To conclude, we provide evidence for MBD3-deficient NuRD in leukemia pathobiology, and inform a novel epistasis between UTX and NuRD towards maintenance of oncogenic gene expression in AML, and rationalize DOCK inhibition as a novel therapeutic modality for precision medicine in AML. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2018-99-113843

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2018

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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KDM6 Demethylases Integrate DNA Repair Gene Regulation: Loss of KDM6A Sensitizes AML to PARP Inhibition and Potentiates with BCL2 Blockade

Boila, Liberalis Debraj ; Jin, Liqing ; Murison, Alex ; [et al.]

American Society of Hematology ; 2021

In: Blood Vol. 138, No. Supplement 1 ( 2021-11-05), p. 25-25

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In: Blood, American Society of Hematology, Vol. 138, No. Supplement 1 ( 2021-11-05), p. 25-25

Abstract: Acute myeloid leukemia (AML) is a heterogeneous, aggressive hematological malignancy with dismal prognosis where limited targeted therapies are currently available. Poly-(ADP-ribose)-polymerase (PARP) inhibition has emerged as an important therapeutic arsenal to target homologous recombination-deficient tumors. However, molecular understanding of PARP blockade in the context of epigenetic derangements and transcriptional plasticity in human elderly AML pathogenesis remains unexplored. KDM6 proteins are H3K27 demethylases that critically regulate chromatin architecture in multi-cellularity and tumorigenesis (Tran, Mol Cell Biol 2020). KDM6A escapes X-chr inactivation, and Utx-/- female mice spontaneously develop aging associated myeloid leukemia (Gozdecka, Nat Genet 2018; Sera, Blood 2021). In addition, KDM6A loss of function mutation is implicated in AML relapse (Stief, Leukemia 2020). In contrast, KDM6B primarily exerts an oncogenic function in heme-malignancies. Together, KDM6A and KDM6B play cell type-specific function in leukemia, and KDM6 proteins and associated signaling emerge as important focal point for developing molecular targeted therapy. We identify that KDM6 demethylase activity critically regulates DNA damage repair (DDR) gene expression program in AML. Transcriptome analysis indicated a significant downregulation of expression of DDR genesets in both KDM6A deficient human AML and Utx -/- pre-leukemic cells. Lentiviral shRNA screening performed in response to low-dose γ-irradiation in AML stem cells, revealed a radioprotective function of KDM6A. Expression of KDM6s is regulated by genotoxic stress in a time-dependent manner, and deficiency of JmjC catalytic function impaired DDR transcriptional activation and compromised repair potential. Mechanistically, quantitative ChIP experiments also revealed co-operation between KDM6A and SWI/SNF facilitating dynamic chromatin remodeling at TSS/promoter to induce DDR gene expression. To interrogate changes in chromatin accessibility we performed ATAC-seq analysis in KDM6 deficient AML. Motif enrichment highlighted that while KDM6A depletion led to reduced chromatin access to 140 transcription factors (TFs), only 56 TF binding sites showed increased accessibility. Overall, changes in chromatin accessibility, associated with a reduced binding of DDR regulatory TFs in KDM6 deficient AML, account for a compromised DDR function. In agreement with these findings an array of KDM6 deficient AML cells were more sensitive to PARP inhibition, and pre-clinical mice models xenotransplanted with KDM6A loss of function AML line showed an increased susceptibility to PARP blockade in vivo. FLT3-ITD positive AML with a lower KDM6A expression was more sensitive to olaparib. In addition, olaparib administration significantly reduced bone marrow engraftment of patient-derived xenografts of KDM6A-mutant primary AML. Interestingly, KDM6A expression is upregulated in venetoclax-resistant monocytic-AML compared to venet-sensitive primitive-AML. Using venet responsive isogenic lines we demonstrated that attenuation of KDM6 function increased mitochondrial activity, intracellular ROS levels, de-repressed BCL2 expression, and sensitized AML cells to venetoclax. Additionally, KDM6 loss resulted in transcriptional repression of BCL2A1, commonly associated with venet resistance (Zhang, Nat Cancer 2020). Corroborating these results, dual targeting of PARP with BCL2 was superior to PARP or BCL2 inhibitor monotherapy in inducing primary AML apoptosis, and KDM6A loss further enhanced this synergism. In sum, our study illustrates a molecular mechanistic rationale in support for a novel combination targeted therapy for AML, and posit KDM6A as a molecular determinant for therapeutic efficacy. Intriguingly, KDM6A functions as a gatekeeper of BCL2 and BCL2A1 expression. Similar to TET2 although bi-allelic Utx loss causes evolution to myeloid neoplasms, minimal KDM6 activity is important for survival of human AML cells. KDM6s have been implicated in solid tumors, and both PARP and BCL2 inhibitors are being tested in cancer patients, underscoring a wider scope of application. To conclude, KDM6A unfolds to be a central regulator for susceptibility of AML to both PARP and BCL2 inhibition, expanding the possibility to characterize effective combination targeted therapy for AML in clinical settings. Disclosures Minden: Astellas: Consultancy. Dick: Celgene, Trillium Therapeutics: Membership on an entity's Board of Directors or advisory committees, Research Funding.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2021-145491

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2021

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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