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1. Single-cell RNA sequencing distinctly characterizes the wide heterogeneity in pediatric mixed phenotype acute leukemia

Author

Hope L. Mumme, Sunil S. Raikar, Swati S. Bhasin, Beena E. Thomas, Taylor Lawrence, Elizabeth P. Weinzierl, Yakun Pang, Deborah DeRyckere, Chuck Gawad, Daniel S. Wechsler, Christopher C. Porter, Sharon M. Castellino, Douglas K. Graham, and Manoj Bhasin

Subjects
Mixed phenotype acute leukemia, Single-cell RNA sequencing, Tumor microenvironment, Medicine, Genetics, QH426-470
Abstract

Abstract Background Mixed phenotype acute leukemia (MPAL), a rare subgroup of leukemia characterized by blast cells with myeloid and lymphoid lineage features, is difficult to diagnose and treat. A better characterization of MPAL is essential to understand the subtype heterogeneity and how it compares with acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL). Therefore, we performed single-cell RNA sequencing (scRNAseq) on pediatric MPAL bone marrow (BM) samples to develop a granular map of the MPAL blasts and microenvironment landscape. Methods We analyzed over 40,000 cells from nine pediatric MPAL BM samples to generate a single-cell transcriptomic landscape of B/myeloid (B/My) and T/myeloid (T/My) MPAL. Cells were clustered using unsupervised single-cell methods, and malignant blast and immune clusters were annotated. Differential expression analysis was performed to identify B/My and T/My MPAL blast-specific signatures by comparing transcriptome profiles of MPAL with normal BM, AML, and ALL. Gene set enrichment analysis (GSEA) was performed, and significantly enriched pathways were compared in MPAL subtypes. Results B/My and T/My MPAL blasts displayed distinct blast signatures. Transcriptomic analysis revealed that B/My MPAL profile overlaps with B-ALL and AML samples. Similarly, T/My MPAL exhibited overlap with T-ALL and AML samples. Genes overexpressed in both MPAL subtypes’ blast cells compared to AML, ALL, and healthy BM included MAP2K2 and CD81. Subtype-specific genes included HBEGF for B/My and PTEN for T/My. These marker sets segregated bulk RNA-seq AML, ALL, and MPAL samples based on expression profiles. Analysis comparing T/My MPAL to ETP, near-ETP, and non-ETP T-ALL, showed that T/My MPAL had greater overlap with ETP-ALL cases. Comparisons among MPAL subtypes between adult and pediatric samples showed analogous transcriptomic landscapes of corresponding subtypes. Transcriptomic differences were observed in the MPAL samples based on response to induction chemotherapy, including selective upregulation of the IL-16 pathway in relapsed samples. Conclusions We have for the first time described the single-cell transcriptomic landscape of pediatric MPAL and demonstrated that B/My and T/My MPAL have distinct scRNAseq profiles from each other, AML, and ALL. Differences in transcriptomic profiles were seen based on response to therapy, but larger studies will be needed to validate these findings.

Published
2023
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2. Single-cell analysis reveals altered tumor microenvironments of relapse- and remission-associated pediatric acute myeloid leukemia

Author

Hope Mumme, Beena E. Thomas, Swati S. Bhasin, Upaasana Krishnan, Bhakti Dwivedi, Pruthvi Perumalla, Debasree Sarkar, Gulay B. Ulukaya, Himalee S. Sabnis, Sunita I. Park, Deborah DeRyckere, Sunil S. Raikar, Melinda Pauly, Ryan J. Summers, Sharon M. Castellino, Daniel S. Wechsler, Christopher C. Porter, Douglas K. Graham, and Manoj Bhasin

Subjects
Science
Abstract

Abstract Acute myeloid leukemia (AML) microenvironment exhibits cellular and molecular differences among various subtypes. Here, we utilize single-cell RNA sequencing (scRNA-seq) to analyze pediatric AML bone marrow (BM) samples from diagnosis (Dx), end of induction (EOI), and relapse timepoints. Analysis of Dx, EOI scRNA-seq, and TARGET AML RNA-seq datasets reveals an AML blasts-associated 7-gene signature (CLEC11A, PRAME, AZU1, NREP, ARMH1, C1QBP, TRH), which we validate on independent datasets. The analysis reveals distinct clusters of Dx relapse- and continuous complete remission (CCR)-associated AML-blasts with differential expression of genes associated with survival. At Dx, relapse-associated samples have more exhausted T cells while CCR-associated samples have more inflammatory M1 macrophages. Post-therapy EOI residual blasts overexpress fatty acid oxidation, tumor growth, and stemness genes. Also, a post-therapy T-cell cluster associated with relapse samples exhibits downregulation of MHC Class I and T-cell regulatory genes. Altogether, this study deeply characterizes pediatric AML relapse- and CCR-associated samples to provide insights into the BM microenvironment landscape.

Published
2023
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3. MERTK Is a Potential Therapeutic Target in Ewing Sarcoma

Author

Sherri K. Smart, Tsz Y. Yeung, M. Olivia Santos, Leon F. McSwain, Xiaodong Wang, Stephen V. Frye, H. Shelton Earp, Deborah DeRyckere, and Douglas K. Graham

Subjects
ewing sarcoma, MERTK, MRX-2843, BCL-2, BCL-XL, small-molecule inhibitor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Outcomes are poor in patients with advanced or relapsed Ewing sarcoma (EWS) and current treatments have significant short- and long-term side effects. New, less toxic and more effective treatments are urgently needed. MER proto-oncogene tyrosine kinase (MERTK) promotes tumor cell survival, metastasis, and resistance to cytotoxic and targeted therapies in a variety of cancers. MERTK was ubiquitously expressed in five EWS cell lines and five patient samples. Moreover, data from CRISPR-based library screens indicated that EWS cell lines are particularly dependent on MERTK. Treatment with MRX-2843, a first-in-class, MERTK-selective tyrosine kinase inhibitor currently in clinical trials, decreased the phosphorylation of MERTK and downstream signaling in a dose-dependent manner in A673 and TC106 cells and provided potent anti-tumor activity against all five EWS cell lines, with IC50 values ranging from 178 to 297 nM. Inhibition of MERTK correlated with anti-tumor activity, suggesting MERTK inhibition as a therapeutic mechanism of MRX-2843. Combined treatment with MRX-2843 and BCL-2 inhibitors venetoclax or navitoclax provided enhanced therapeutic activity compared to single agents. These data highlight MERTK as a promising therapeutic target in EWS and provide rationale for the development of MRX-2843 for the treatment of EWS, especially in combination with BCL-2 inhibitors.

Published
2024
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4. Pediatric T-cell acute lymphoblastic leukemia blast signature and MRD associated immune environment changes defined by single cell transcriptomics analysis

Author

Swati S. Bhasin, Beena E. Thomas, Ryan J. Summers, Debasree Sarkar, Hope Mumme, William Pilcher, Mohamed Emam, Sunil S. Raikar, Sunita I. Park, Sharon M. Castellino, Douglas K. Graham, Manoj K. Bhasin, and Deborah DeRyckere

Subjects
Medicine, Science
Abstract

Abstract Different driver mutations and/or chromosomal aberrations and dysregulated signaling interactions between leukemia cells and the immune microenvironment have been implicated in the development of T-cell acute lymphoblastic leukemia (T-ALL). To better understand changes in the bone marrow microenvironment and signaling pathways in pediatric T-ALL, bone marrows collected at diagnosis (Dx) and end of induction therapy (EOI) from 11 patients at a single center were profiled by single cell transcriptomics (10 Dx, 5 paired EOI, 1 relapse). T-ALL blasts were identified by comparison with healthy bone marrow cells. T-ALL blast-associated gene signature included SOX4, STMN1, JUN, HES4, CDK6, ARMH1 among the most significantly overexpressed genes, some of which are associated with poor prognosis in children with T-ALL. Transcriptome profiles of the blast cells exhibited significant inter-patient heterogeneity. Post induction therapy expression profiles of the immune cells revealed significant changes. Residual blast cells in MRD+ EOI samples exhibited significant upregulation (P

Published
2023
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5. Obesity-induced galectin-9 is a therapeutic target in B-cell acute lymphoblastic leukemia

Author

Miyoung Lee, Jamie A. G. Hamilton, Ganesh R. Talekar, Anthony J. Ross, Langston Michael, Manali Rupji, Bhakti Dwivedi, Sunil S. Raikar, Jeremy Boss, Christopher D. Scharer, Douglas K. Graham, Deborah DeRyckere, Christopher C. Porter, and Curtis J. Henry

Subjects
Science
Abstract

Obesity has been reported to promote tumourigenesis and chemoresistance but the underlying mechanisms are not completely understood. Here, the authors show that adipocytes induce Galectin-9 (GAL-9) expression in B-acute lymphoblastic leukaemia (B-ALL) cells which leads to chemoresistance and antibody-mediated blockade of GAL-9 increases survival in preclinical B-ALL murine models.

Published
2022
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6. MERTK activation drives osimertinib resistance in EGFR-mutant non–small cell lung cancer

Author

Dan Yan, Justus M. Huelse, Dmitri Kireev, Zikang Tan, Luxiao Chen, Subir Goyal, Xiaodong Wang, Stephen V. Frye, Madhusmita Behera, Frank Schneider, Suresh S. Ramalingam, Taofeek Owonikoko, H. Shelton Earp, Deborah DeRyckere, and Douglas K. Graham

Subjects
Cell biology, Oncology, Medicine
Abstract

Acquired resistance is inevitable in non–small cell lung cancers (NSCLCs) treated with osimertinib (OSI), and the mechanisms are not well defined. The MERTK ligand GAS6 promoted downstream oncogenic signaling in EGFR-mutated (EGFRMT) NSCLC cells treated with OSI, suggesting a role for MERTK activation in OSI resistance. Indeed, treatment with MRX-2843, a first-in-class MERTK kinase inhibitor, resensitized GAS6-treated NSCLC cells to OSI. Both GAS6 and EGF stimulated downstream PI3K/AKT and MAPK/ERK signaling in parental cells, but only GAS6 activated these pathways in OSI-resistant (OSIR) derivative cell lines. Functionally, OSIR cells were more sensitive to MRX-2843 than parental cells, suggesting acquired dependence on MERTK signaling. Furthermore, MERTK and/or its ligands were dramatically upregulated in EGFRMT tumors after treatment with OSI in both xenograft models and patient samples, consistent with induction of autocrine/paracrine MERTK activation. Moreover, treatment with MRX-2843 in combination with OSI, but not OSI alone, provided durable suppression of tumor growth in vivo, even after treatment was stopped. These data identify MERTK as a driver of bypass signaling in treatment-naive and EGFRMT-OSIR NSCLC cells and predict that MRX-2843 and OSI combination therapy will provide clinical benefit in patients with EGFRMT NSCLC.

Published
2022
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8. Therapeutic Targeting of MERTK and BCL-2 in T-Cell and Early T-Precursor Acute Lymphoblastic Leukemia

Author

Ryan J. Summers, Juhi Jain, Eleana Vasileiadi, Brittany Smith, Madison L. Chimenti, Tsz Y. Yeung, James Kelvin, Xiaodong Wang, Stephen V. Frye, H. Shelton Earp, Jeffrey W. Tyner, Erik C. Dreaden, Deborah DeRyckere, and Douglas K. Graham

Subjects
ETP-ALL, small molecule inhibitor, MERTK, BCL-2, MRX-2843, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

T-cell acute lymphoblastic leukemia (T-ALL) accounts for 15% of childhood ALL. The early T-precursor (ETP-ALL) subset is characterized by an immature T-cell phenotype, chemoresistance, and high rates of induction failure. MERTK receptor tyrosine kinase is ectopically expressed in half of T-ALLs, particularly those with an immature T-cell phenotype, suggesting a role in ETP-ALL. The anti-apoptotic protein B-cell lymphoma-2 (BCL-2) is essential for ETP-ALL cell survival. Here, we show that MERTK and BCL-2 mRNA and protein are preferentially expressed in ETP-ALL patient samples. The dual MERTK/FLT3 inhibitor MRX-2843 decreased MERTK activation and downstream signaling, inhibited cell expansion, and induced cell death in ETP-ALL cell lines. Further, 54% (21/39) of primary T-ALL patient samples were sensitive to MERTK inhibition. Treatment with MRX-2843 significantly reduced leukemia burden and prolonged survival in cell-line-derived T-ALL and ETP-ALL xenograft models. In a patient-derived ETP-ALL xenograft model, treatment with MRX-2843 markedly reduced peripheral blood leukemia and spleen weight compared to vehicle-treated mice and prolonged survival. MRX-2843 also synergized with venetoclax to provide enhanced anti-leukemia activity in ETP-ALL cell cultures, with a dose ratio of 1:20 MRX-2843:venetoclax providing optimal synergy. These data demonstrate the therapeutic potential of MRX-2843 in patients with T-ALL and provide rationale for clinical development. MRX-2843 monotherapy is currently being tested in patients with relapsed leukemia (NCT04872478). Further, our data indicate that combined MERTK and BCL-2 inhibition may be particularly effective for treatment of ETP-ALL.

Published
2022
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10. Risk-associated alterations in marrow T cells in pediatric leukemia

Author

Jithendra Kini Bailur, Samuel S. McCachren, Katherine Pendleton, Juan C. Vasquez, Hong Seo Lim, Alyssa Duffy, Deon B. Doxie, Akhilesh Kaushal, Connor Foster, Deborah DeRyckere, Sharon Castellino, Melissa L. Kemp, Peng Qiu, Madhav V. Dhodapkar, and Kavita M. Dhodapkar

Subjects
Immunology, Medicine
Abstract

Current management of childhood leukemia is tailored based on disease risk determined by clinical features at presentation. Whether properties of the host immune response impact disease risk and outcome is not known. Here, we combine mass cytometry, single cell genomics, and functional studies to characterize the BM immune environment in children with B cell acute lymphoblastic leukemia and acute myelogenous leukemia at presentation. T cells in leukemia marrow demonstrate evidence of chronic immune activation and exhaustion/dysfunction, with attrition of naive T cells and TCF1+ stem-like memory T cells and accumulation of terminally differentiated effector T cells. Marrow-infiltrating NK cells also exhibit evidence of dysfunction, particularly in myeloid leukemia. Properties of immune cells identified distinct immune phenotype–based clusters correlating with disease risk in acute lymphoblastic leukemia. High-risk immune signatures were associated with expression of stem-like genes on tumor cells. These data provide a comprehensive assessment of the immune landscape of childhood leukemias and identify targets potentially amenable to therapeutic intervention. These studies also suggest that properties of the host response with depletion of naive T cells and accumulation of terminal-effector T cells may contribute to the biologic basis of disease risk. Properties of immune microenvironment identified here may also impact optimal application of immune therapies, including T cell–redirection approaches in childhood leukemia.

Published
2020
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11. Targeting MERTK and AXL in EGFR Mutant Non-Small Cell Lung Cancer

Author

Dan Yan, H. Shelton Earp, Deborah DeRyckere, and Douglas K. Graham

Subjects
MERTK, AXL, TAM family, receptor tyrosine kinase, targeted therapy, NSCLC, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

MERTK and AXL are members of the TAM family of receptor tyrosine kinases and are abnormally expressed in 69% and 93% of non-small cell lung cancers (NSCLCs), respectively. Expression of MERTK and/or AXL provides a survival advantage for NSCLC cells and correlates with lymph node metastasis, drug resistance, and disease progression in patients with NSCLC. The TAM receptors on host tumor infiltrating cells also play important roles in the immunosuppressive tumor microenvironment. Thus, MERTK and AXL are attractive biologic targets for NSCLC treatment. Here, we will review physiologic and oncologic roles for MERTK and AXL with an emphasis on the potential to target these kinases in NSCLCs with activating EGFR mutations.

Published
2021
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12. The Emerging Role of TYRO3 as a Therapeutic Target in Cancer

Author

Sherri K. Smart, Eleana Vasileiadi, Xiaodong Wang, Deborah DeRyckere, and Douglas K. Graham

Subjects
TYRO3, MERTK, AXL, TAM family, receptor tyrosine kinase, targeted therapy, signaling pathway, cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

The TAM family (TYRO3, AXL, MERTK) tyrosine kinases play roles in diverse biological processes including immune regulation, clearance of apoptotic cells, platelet aggregation, and cell proliferation, survival, and migration. While AXL and MERTK have been extensively studied, less is known about TYRO3. Recent studies revealed roles for TYRO3 in cancer and suggest TYRO3 as a therapeutic target in this context. TYRO3 is overexpressed in many types of cancer and functions to promote tumor cell survival and/or proliferation, metastasis, and resistance to chemotherapy. In addition, higher levels of TYRO3 expression have been associated with decreased overall survival in patients with colorectal, hepatocellular, and breast cancers. Here we review the physiological roles for TYRO3 and its expression and functions in cancer cells and the tumor microenvironment, with emphasis on the signaling pathways that are regulated downstream of TYRO3 and emerging roles for TYRO3 in the immune system. Translational agents that target TYRO3 are also described.

Published
2018
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13. MERTK Inhibition Induces Polyploidy and Promotes Cell Death and Cellular Senescence in Glioblastoma Multiforme.

Author

Alexandra Sufit, Alisa B Lee-Sherick, Deborah DeRyckere, Manali Rupji, Bhakti Dwivedi, Marileila Varella-Garcia, Angela M Pierce, Jeanne Kowalski, Xiaodong Wang, Stephen V Frye, H Shelton Earp, Amy K Keating, and Douglas K Graham

Subjects
Medicine, Science
Abstract

MER receptor tyrosine kinase (MERTK) is expressed in a variety of malignancies, including glioblastoma multiforme (GBM). Our previous work demonstrated that inhibition of MERTK using RNA interference induced cell death and chemosensitivity in GBM cells, implicating MERTK as a potential therapeutic target. Here we investigate whether a novel MERTK-selective small molecule tyrosine kinase inhibitor, UNC2025, has similar anti-tumor effects in GBM cell lines.Correlations between expression of GAS6, a MERTK ligand, and prognosis were determined using data from the TCGA database. GBM cell lines (A172, SF188, U251) were treated in vitro with increasing doses of UNC2025 (50-400nM). Cell count and viability were determined by trypan blue exclusion. Cell cycle profiles and induction of apoptosis were assessed by flow cytometric analysis after BrdU or Po-Pro-1/propidium iodide staining, respectively. Polyploidy was detected by propidium iodide staining and metaphase spread. Cellular senescence was determined by β-galactosidase staining and senescence-associated secretory cytokine analysis.Decreased overall survival significantly correlated with high levels of GAS6 expression in GBM, highlighting the importance of TAM kinase signaling in GBM tumorigenesis and/or therapy resistance and providing strong rationale for targeting these pathways in the clinic. All three GBM cell lines exhibited dose dependent reductions in cell number and colony formation (>90% at 200nM) after treatment with UNC2025. Cell cycle analysis demonstrated accumulation of cells in the G2/M phase and development of polyploidy. After extended exposure, 60-80% of cells underwent apoptosis. The majority of surviving cells (65-95%) were senescent and did not recover after drug removal. Thus, UNC2025 mediates anti-tumor activity in GBM by multiple mechanisms.The findings described here provide further evidence of oncogenic roles for MERTK in GBM, demonstrate the importance of kinase activity for MERTK tumorigenicity and validate UNC2025, a novel MERTK inhibitor, as a potential therapeutic agent for treatment of GBM.

Published
2016
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14. Targeting the TAM Receptors in Leukemia

Author

Madeline G. Huey, Katherine A. Minson, H. Shelton Earp, Deborah DeRyckere, and Douglas K. Graham

Subjects
TYRO3, AXL, MERTK, Gas6, leukemia, multiple myeloma, tyrosine kinase inhibitor, resistance, hematopoiesis, signaling pathways, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Targeted inhibition of members of the TAM (TYRO-3, AXL, MERTK) family of receptor tyrosine kinases has recently been investigated as a novel strategy for treatment of hematologic malignancies. The physiologic functions of the TAM receptors in innate immune control, natural killer (NK) cell differentiation, efferocytosis, clearance of apoptotic debris, and hemostasis have previously been described and more recent data implicate TAM kinases as important regulators of erythropoiesis and megakaryopoiesis. The TAM receptors are aberrantly or ectopically expressed in many hematologic malignancies including acute myeloid leukemia, B- and T-cell acute lymphoblastic leukemia, chronic lymphocytic leukemia, and multiple myeloma. TAM receptors contribute to leukemic phenotypes through activation of pro-survival signaling pathways and interplay with other oncogenic proteins such as FLT3, LYN, and FGFR3. The TAM receptors also contribute to resistance to both cytotoxic chemotherapeutics and targeted agents, making them attractive therapeutic targets. A number of translational strategies for TAM inhibition are in development, including small molecule inhibitors, ligand traps, and monoclonal antibodies. Emerging areas of research include modulation of TAM receptors to enhance anti-tumor immunity, potential roles for TYRO-3 in leukemogenesis, and the function of the bone marrow microenvironment in mediating resistance to TAM inhibition.

Published
2016
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15. Prolonged exposure to a Mer ligand in leukemia: Gas6 favors expression of a partial Mer glycoform and reveals a novel role for Mer in the nucleus.

Author

Justine Migdall-Wilson, Christine Bates, Jennifer Schlegel, Luis Brandão, Rachel M A Linger, Deborah DeRyckere, and Douglas K Graham

Subjects
Medicine, Science
Abstract

Mer tyrosine kinase is ectopically expressed in acute lymphoblastic leukemia and associated with enhanced chemoresistance and disease progression. While such effects are generally ascribed to increased engagement of oncogenic pathways downstream of Mer stimulation by its ligand, Gas6, Mer has not been characterized beyond the scope of its signaling activity. The present study explores Mer behavior following prolonged exposure to Gas6, a context similar to the Gas6-enriched microenvironment of the bone marrow, where a steady supply of ligand facilitates continuous engagement of Mer and likely sustains the presence of leukemic cells. Long-term Gas6 exposure induced production of a partially N-glycosylated form of Mer from newly synthesized stores of protein. Preferential expression of the partial Mer glycoform was associated with diminished levels of Mer on the cell surface and altered Mer localization within the nuclear-soluble and chromatin-bound fractions. The presence of Mer in the nucleus is a novel finding for this receptor, and the glycoform-specific preferences observed in each nuclear compartment suggest that glycosylation may influence Mer function within particular subcellular locales. Previous studies have established Mer as an attractive cancer biologic target, and understanding the complexity of its activity has important implications for potential strategies of Mer inhibition in leukemia therapy. Our results identify several novel features of Mer that expand the breadth of its functions and impact the development of therapeutic modalities designed to target Mer.

Published
2012
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16. Supplemental Materials and Methods from MERTK Mediates Intrinsic and Adaptive Resistance to AXL-targeting Agents

Author

Deric L. Wheeler, Douglas K. Graham, Deborah DeRyckere, Randall J. Kimple, Paul M. Harari, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Kurtis D. Davies, Grace H. Kang, Noah B. Welke, Olivia J. Ondracek, Rachel A. Orbuch, Rebecca E. Parker, Eleana Vasileiadi, Hannah E. Pearson, Justus Hülse, Mari Iida, Christopher T. Cummings, and Nellie K. McDaniel

Abstract

Supplemental cell lines list

Published
2023

17. Figure S1 from MERTK Mediates Intrinsic and Adaptive Resistance to AXL-targeting Agents

Author

Deric L. Wheeler, Douglas K. Graham, Deborah DeRyckere, Randall J. Kimple, Paul M. Harari, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Kurtis D. Davies, Grace H. Kang, Noah B. Welke, Olivia J. Ondracek, Rachel A. Orbuch, Rebecca E. Parker, Eleana Vasileiadi, Hannah E. Pearson, Justus Hülse, Mari Iida, Christopher T. Cummings, and Nellie K. McDaniel

Abstract

Evaluation of AXL inhibitor R428.

Published
2023

20. Supplementary Figure 3 from UNC569, a Novel Small-Molecule Mer Inhibitor with Efficacy against Acute Lymphoblastic Leukemia In Vitro and In Vivo

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Gary L. Johnson, William P. Janzen, Emily A. Hull-Ryde, Jacqueline Norris-Drouin, Catherine Simpson, Dmitri Kireev, Chao Yang, Jing Liu, Christopher T. Cummings, Debra M. Hunter, Susan Sather, Alesia Y. Trakhimets, Lance A. Batchelor, J. Kimble Frazer, Jennifer Schlegel, Deborah DeRyckere, and Sandra Christoph

Abstract

PDF - 164KB, Jurkat and 697 cell cultures were treated with UNC569 (500 nM) for 1 hour. Pervanadate was added to cell cultures for 3 minutes to stabilize the phosphorylated form of Mer. Cells were harvested after 24 and after 48 hours. Mer was immunoprecipitated from cell lysates and total Mer protein and Mer phosphoprotein (p-Mer) were detected by western blot.

Published
2023

21. Supplemental Figure 7 from Inhibition of MERTK Promotes Suppression of Tumor Growth in BRAF Mutant and BRAF Wild-Type Melanoma

Author

Douglas K. Graham, Deborah DeRyckere, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, S. Gail Eckhardt, Tal Burstyn-Cohen, Rotem Kami, William A. Robinson, Stacey M. Bagby, Jacqueline Carrico, John J. Tentler, Katherine A. Minson, and Lenka Sinik

Abstract

Supplemental Figure 7 shows combined UNC2025 and vemurafenib treatment is tolerated in mice.

Published
2023

23. Supplementary Figure 2 from UNC569, a Novel Small-Molecule Mer Inhibitor with Efficacy against Acute Lymphoblastic Leukemia In Vitro and In Vivo

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Gary L. Johnson, William P. Janzen, Emily A. Hull-Ryde, Jacqueline Norris-Drouin, Catherine Simpson, Dmitri Kireev, Chao Yang, Jing Liu, Christopher T. Cummings, Debra M. Hunter, Susan Sather, Alesia Y. Trakhimets, Lance A. Batchelor, J. Kimble Frazer, Jennifer Schlegel, Deborah DeRyckere, and Sandra Christoph

Abstract

PDF - 172KB, Jurkat cell cultures were treated with the indicated concentrations of UNC569 for 1 hour. Pervanadate was added to cell cultures for 3 minutes to stabilize the phosphorylated form of Tyro3. Tyro3 was immunoprecipitated from cell lysates and total Tyro3 protein and Tyro3 phosphoprotein (p-Tyro3) were detected by western blot. Numbers on the right indicate the location of molecular weight (kD) markers. Immunoblots are representative of three independent experiments.

Published
2023

24. Supplementary Figure 1 from UNC569, a Novel Small-Molecule Mer Inhibitor with Efficacy against Acute Lymphoblastic Leukemia In Vitro and In Vivo

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Gary L. Johnson, William P. Janzen, Emily A. Hull-Ryde, Jacqueline Norris-Drouin, Catherine Simpson, Dmitri Kireev, Chao Yang, Jing Liu, Christopher T. Cummings, Debra M. Hunter, Susan Sather, Alesia Y. Trakhimets, Lance A. Batchelor, J. Kimble Frazer, Jennifer Schlegel, Deborah DeRyckere, and Sandra Christoph

Abstract

PDF - 294KB, TAM receptor expression in Jurkat cell line was detected by western blot analysis. Whole cell lysates were prepared and phosphorylated (denoted by p-) and total proteins were detected. Western blots representative of three independent experiments are shown. Blots were stripped and reprobed with anti-tubulin antibody to confirm similar protein loading.

Published
2023

25. Supplementary Figure 5 from UNC569, a Novel Small-Molecule Mer Inhibitor with Efficacy against Acute Lymphoblastic Leukemia In Vitro and In Vivo

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Gary L. Johnson, William P. Janzen, Emily A. Hull-Ryde, Jacqueline Norris-Drouin, Catherine Simpson, Dmitri Kireev, Chao Yang, Jing Liu, Christopher T. Cummings, Debra M. Hunter, Susan Sather, Alesia Y. Trakhimets, Lance A. Batchelor, J. Kimble Frazer, Jennifer Schlegel, Deborah DeRyckere, and Sandra Christoph

Abstract

PDF - 634KB, Eighteen fish (Myc1-Myc18) were treated with UNC569 for 2 weeks. Animals were imaged pre- and post-treatment, with GFP intensities quantified as described in the text. Ten of 18 fish (55.6%; Myc1-Myc8, Myc10, Myc16) showed >50% regressions. Six fish (33.3%; Myc9, Myc11-15) had 25-50% responses, and 2/18 (11.1%; Myc17, Myc18) progressed on treatment. Average diminution in tumor burden across the entire cohort was 47.8%. Four images are shown for each animal: Day 0 columns shows the raw image and GFP intensity plot for each fish prior to UNC treatment. Day 14 columns show post-treatment images and intensity plots. GFP Score day 14 columns show final responses, depicted as % of original cancer remaining.

Published
2023

27. Data from MERTK Mediates Intrinsic and Adaptive Resistance to AXL-targeting Agents

Author

Deric L. Wheeler, Douglas K. Graham, Deborah DeRyckere, Randall J. Kimple, Paul M. Harari, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Kurtis D. Davies, Grace H. Kang, Noah B. Welke, Olivia J. Ondracek, Rachel A. Orbuch, Rebecca E. Parker, Eleana Vasileiadi, Hannah E. Pearson, Justus Hülse, Mari Iida, Christopher T. Cummings, and Nellie K. McDaniel

Abstract

The TAM (TYRO3, AXL, MERTK) family receptor tyrosine kinases (RTK) play an important role in promoting growth, survival, and metastatic spread of several tumor types. AXL and MERTK are overexpressed in head and neck squamous cell carcinoma (HNSCC), triple-negative breast cancer (TNBC), and non–small cell lung cancer (NSCLC), malignancies that are highly metastatic and lethal. AXL is the most well-characterized TAM receptor and mediates resistance to both conventional and targeted cancer therapies. AXL is highly expressed in aggressive tumor types, and patients with cancer are currently being enrolled in clinical trials testing AXL inhibitors. In this study, we analyzed the effects of AXL inhibition using a small-molecule AXL inhibitor, a monoclonal antibody (mAb), and siRNA in HNSCC, TNBC, and NSCLC preclinical models. Anti-AXL–targeting strategies had limited efficacy across these different models that, our data suggest, could be attributed to upregulation of MERTK. MERTK expression was increased in cell lines and patient-derived xenografts treated with AXL inhibitors and inhibition of MERTK sensitized HNSCC, TNBC, and NSCLC preclinical models to AXL inhibition. Dual targeting of AXL and MERTK led to a more potent blockade of downstream signaling, synergistic inhibition of tumor cell expansion in culture, and reduced tumor growth in vivo. Furthermore, ectopic overexpression of MERTK in AXL inhibitor–sensitive models resulted in resistance to AXL-targeting strategies. These observations suggest that therapeutic strategies cotargeting both AXL and MERTK could be highly beneficial in a variety of tumor types where both receptors are expressed, leading to improved survival for patients with lethal malignancies. Mol Cancer Ther; 17(11); 2297–308. ©2018 AACR.

Published
2023

29. Data from Small Molecule Inhibition of MERTK Is Efficacious in Non–Small Cell Lung Cancer Models Independent of Driver Oncogene Status

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Deborah DeRyckere, Dehui Zhang, Gregory D. Kirkpatrick, Kurtis D. Davies, Weihe Zhang, and Christopher T. Cummings

Abstract

Treatment of non–small cell lung cancer (NSCLC) has been transformed by targeted therapies directed against molecular aberrations specifically activated within an individual patient's tumor. However, such therapies are currently only available against a small number of such aberrations, and new targets and therapeutics are needed. Our laboratory has previously identified the MERTK receptor tyrosine kinase (RTK) as a potential drug target in multiple cancer types, including NSCLC. We have recently developed UNC2025—the first-in-class small molecule inhibitor targeting MERTK with pharmacokinetic properties sufficient for clinical translation. Here, we utilize this compound to further validate the important emerging biologic functions of MERTK in lung cancer pathogenesis, to establish that MERTK can be effectively targeted by a clinically translatable agent, and to demonstrate that inhibition of MERTK is a valid treatment strategy in a wide variety of NSCLC lines independent of their driver oncogene status, including in lines with an EGFR mutation, a KRAS/NRAS mutation, an RTK fusion, or another or unknown driver oncogene. Biochemically, we report the selectivity of UNC2025 for MERTK, and its inhibition of oncogenic downstream signaling. Functionally, we demonstrate that UNC2025 induces apoptosis of MERTK-dependent NSCLC cell lines, while decreasing colony formation in vitro and tumor xenograft growth in vivo in murine models. These findings provide further evidence for the importance of MERTK in NSCLC, and demonstrate that MERTK inhibition by UNC2025 is a feasible, clinically relevant treatment strategy in a wide variety of NSCLC subtypes, which warrants further investigation in clinical trials. Mol Cancer Ther; 14(9); 2014–22. ©2015 AACR.

Published
2023

31. Supplemental Figure 1 from Small Molecule Inhibition of MERTK Is Efficacious in Non–Small Cell Lung Cancer Models Independent of Driver Oncogene Status

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Deborah DeRyckere, Dehui Zhang, Gregory D. Kirkpatrick, Kurtis D. Davies, Weihe Zhang, and Christopher T. Cummings

Abstract

Supplemental Figure 1: Lack of Expression of Relevant Potential Off-Target Kinases.Sub-confluent cultures of the H2228, A549, Colo699, and H1299 NSCLC cell lines were lysed.

Published
2023

32. Supplementary Figure 4 from UNC569, a Novel Small-Molecule Mer Inhibitor with Efficacy against Acute Lymphoblastic Leukemia In Vitro and In Vivo

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Gary L. Johnson, William P. Janzen, Emily A. Hull-Ryde, Jacqueline Norris-Drouin, Catherine Simpson, Dmitri Kireev, Chao Yang, Jing Liu, Christopher T. Cummings, Debra M. Hunter, Susan Sather, Alesia Y. Trakhimets, Lance A. Batchelor, J. Kimble Frazer, Jennifer Schlegel, Deborah DeRyckere, and Sandra Christoph

Abstract

PDF - 358KB, Cells were plated in methylcellulose in the presence of the indicated concentrations of UNC1653 or vehicle only. Colonies were counted after eight days. Long-term colony growth of Jurkat cells in methylcellulose is shown. Mean values and standard errors were derived from 3 independent experiments.

Published
2023

35. Supplemental Tables 1-4 from Tyrosine Kinase Inhibition in Leukemia Induces an Altered Metabolic State Sensitive to Mitochondrial Perturbations

Author

James DeGregori, Douglas K. Graham, Natalie J. Serkova, Craig T. Jordan, Daniel A. Pollyea, Michael F. Wempe, Vijay Kumar, Amit Kumar, Lelisa Gemta, Amanda A. Hill, Vadym Zaberezhnyy, Brett M. Stevens, Deborah DeRyckere, Catherine Pham-Danis, Mark A. Gregory, and Francesca Alvarez-Calderon

Abstract

Supplemental Tables 1-4. Table 1: pLKO shRNA clone information and antibody information. Table 2: Combination Indices to assess for synergism. Table 3: Quantitative 1H-, 31P- and 13C-NMR analysis of K562 CML cells treated with vehicle imatinib, oligomycin-A or the combination imatinib + oligomycin-A. Table 4: Complete blood counts and metabolic profiles after in vivo treatment with Oligomycin-A

Published
2023

36. Data from MERTK Promotes Resistance to Irreversible EGFR Tyrosine Kinase Inhibitors in Non–small Cell Lung Cancers Expressing Wild-type EGFR Family Members

Author

Douglas K. Graham, Deborah DeRyckere, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Rebecca E. Parker, and Dan Yan

Abstract

Purpose:Lung cancer is the leading cause of cancer-related death. Non–small cell lung cancer (NSCLC) accounts for 85% of all lung cancers and over 60% express wild-type EGFR (wtEGFR); however, EGFR tyrosine kinase inhibitors (TKIs) have limited effect in most patients with wtEGFR tumors. We previously identified MERTK tyrosine kinase as a potential therapeutic target in NSCLC and developed MRX-2843, a novel MERTK-selective inhibitor with favorable properties for clinical translation. The goal of this study was to determine whether MERTK and EGFR inhibitor combination therapy could provide antitumor efficacy against wtEGFR NSCLC.Experimental Design: An unbiased screen of 378 kinase inhibitors was conducted to identify synergistic interactions with MRX-2843 and biochemical and therapeutic effects were determined in vitro and in vivo.Results:Numerous irreversible EGFR TKIs, including CO-1686 and osimertinib, synergized with MRX-2843 to inhibit wtEGFR NSCLC cell expansion, irrespective of driver oncogene status. CO-1686 and MRX-2843 combination therapy inhibited MERTK, wtEGFR, and ERBB2/ERBB3 and decreased downstream PI3K-AKT, MAPK-ERK, and AURORA kinase (AURK) signaling more effectively than single agents. Inhibition of PI3K, AKT or AURK, but not MEK, synergized with CO-1686 to inhibit tumor cell expansion, suggesting their roles as key redundant resistance pathways. Treatment with MRX-2843 and CO-1686 or osimertinib prevented xenograft growth while single agents had limited effect. Tumor growth inhibition was durable even after treatment with combination therapy was stopped.Conclusions:Our data support the application of MRX-2843 in combination with an irreversible EGFR TKI as a novel strategy for treatment of patients with wtEGFR NSCLC.

Published
2023

37. Data from UNC2025, a MERTK Small-Molecule Inhibitor, Is Therapeutically Effective Alone and in Combination with Methotrexate in Leukemia Models

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Weihe Zhang, Stephanie A. Montgomery, Fatma Eryildiz, Gregory G. Kirkpatrick, Lauren S. Page, Kristen M. Jacobsen, Jeffrey W. Tyner, Amanda A. Hill, Madeline G. Huey, Alisa B. Lee-Sherick, and Deborah DeRyckere

Abstract

Purpose: MERTK tyrosine kinase is ectopically expressed in 30% to 50% of acute lymphoblastic leukemias (ALL) and more than 80% of acute myeloid leukemias (AML) and is a potential therapeutic target. Here, we evaluated the utility of UNC2025, a MERTK tyrosine kinase inhibitor, for treatment of acute leukemia.Experimental Design: Preclinical in vitro and in vivo assays using cell lines and primary leukemia patient samples were used to evaluate antileukemic effects of UNC2025.Results: UNC2025 potently inhibited prosurvival signaling, induced apoptosis, and reduced proliferation and colony formation in MERTK-expressing ALL and AML cell lines and patient samples. Approximately 30% of primary leukemia patient samples (78 of 261 total) were sensitive to UNC2025. Sensitive samples were most prevalent in the AML, T-ALL, and minimally differentiated (M0) AML subsets. UNC2025 inhibited MERTK in bone marrow leukemia cells and had significant therapeutic effects in xenograft models, with dose-dependent decreases in tumor burden and consistent two-fold increases in median survival, irrespective of starting disease burden. In a patient-derived AML xenograft model, treatment with UNC2025 induced disease regression. In addition, UNC2025 increased sensitivity to methotrexate in vivo, suggesting that addition of MERTK-targeted therapy to current cytotoxic regimens may be particularly effective and/or allow for chemotherapy dose reduction.Conclusions: The broad-spectrum activity mediated by UNC2025 in leukemia patient samples and xenograft models, alone or in combination with cytotoxic chemotherapy, supports continued development of MERTK inhibitors for treatment of leukemia. Clin Cancer Res; 23(6); 1481–92. ©2016 AACR.

Published
2023

38. Supplemental Tables from UNC2025, a MERTK Small-Molecule Inhibitor, Is Therapeutically Effective Alone and in Combination with Methotrexate in Leukemia Models

Author

Douglas K. Graham, H. Shelton Earp, Stephen V. Frye, Xiaodong Wang, Weihe Zhang, Stephanie A. Montgomery, Fatma Eryildiz, Gregory G. Kirkpatrick, Lauren S. Page, Kristen M. Jacobsen, Jeffrey W. Tyner, Amanda A. Hill, Madeline G. Huey, Alisa B. Lee-Sherick, and Deborah DeRyckere

Abstract

Supplemental Table 1: Antibody Suppliers and Catalog Numbers Supplemental Table 2: Cell Cycle Profiles in Acute Leukemia Cell Lines Treated with UNC2025. Mean values, standard errors, and p values compared to vehicle treatment from 3 independent experiments are shown. (NS=Not Significant, *p

Published
2023

39. Supplemental Figures 1-8 from Tyrosine Kinase Inhibition in Leukemia Induces an Altered Metabolic State Sensitive to Mitochondrial Perturbations

Author

James DeGregori, Douglas K. Graham, Natalie J. Serkova, Craig T. Jordan, Daniel A. Pollyea, Michael F. Wempe, Vijay Kumar, Amit Kumar, Lelisa Gemta, Amanda A. Hill, Vadym Zaberezhnyy, Brett M. Stevens, Deborah DeRyckere, Catherine Pham-Danis, Mark A. Gregory, and Francesca Alvarez-Calderon

Abstract

Supplemental Figures 1-8. Figure 1. Mitochondrial metabolism becomes essential for TKI-treated BCR-ABL+ leukemia cells. Figure 2: Oligomycin-A sensitizes cells to BCR-ABL inhibition. Figure 3. Oligomycin-A sensitizes cells to BCR-ABL inhibition. Figure 4. Oligomycin-A sensitizes acute myeloid leukemia cells to TKI. Figure 5. Low nM concentrations of oligomycin-A do not perturb the TCA cycle. Figure 6. Oligomycin-A disrupts mitochondrial functions in leukemia cells. Figure 7. Low dose oligomycin-A synergizes with TKI to eliminate leukemia in vivo with no significant toxicity. Figure 8. Model for how TKI treatment of leukemias creates an altered metabolic state sensitive to mitochondrial perturbations.

Published
2023

41. Supplemental Methods from Tyrosine Kinase Inhibition in Leukemia Induces an Altered Metabolic State Sensitive to Mitochondrial Perturbations

Author

James DeGregori, Douglas K. Graham, Natalie J. Serkova, Craig T. Jordan, Daniel A. Pollyea, Michael F. Wempe, Vijay Kumar, Amit Kumar, Lelisa Gemta, Amanda A. Hill, Vadym Zaberezhnyy, Brett M. Stevens, Deborah DeRyckere, Catherine Pham-Danis, Mark A. Gregory, and Francesca Alvarez-Calderon

Abstract

Supplemental Methods. This supplementary file includes additional methods for sample preparation, Seahorse analysis of oxygen consumption rates, reactive oxygen species measurements, flow cytometry analysis, NMR analysis, RT-PCR conditions, quizartinib synthesis information.

Published
2023

42. Data from Tyrosine Kinase Inhibition in Leukemia Induces an Altered Metabolic State Sensitive to Mitochondrial Perturbations

Author

James DeGregori, Douglas K. Graham, Natalie J. Serkova, Craig T. Jordan, Daniel A. Pollyea, Michael F. Wempe, Vijay Kumar, Amit Kumar, Lelisa Gemta, Amanda A. Hill, Vadym Zaberezhnyy, Brett M. Stevens, Deborah DeRyckere, Catherine Pham-Danis, Mark A. Gregory, and Francesca Alvarez-Calderon

Abstract

Purpose: Although tyrosine kinase inhibitors (TKI) can be effective therapies for leukemia, they fail to fully eliminate leukemic cells and achieve durable remissions for many patients with advanced BCR-ABL+ leukemias or acute myelogenous leukemia (AML). Through a large-scale synthetic lethal RNAi screen, we identified pyruvate dehydrogenase, the limiting enzyme for pyruvate entry into the mitochondrial tricarboxylic acid cycle, as critical for the survival of chronic myelogenous leukemia (CML) cells upon BCR-ABL inhibition. Here, we examined the role of mitochondrial metabolism in the survival of Ph+ leukemia and AML upon TK inhibition.Experimental Design: Ph+ cancer cell lines, AML cell lines, leukemia xenografts, cord blood, and patient samples were examined.Results: We showed that the mitochondrial ATP-synthase inhibitor oligomycin-A greatly sensitized leukemia cells to TKI in vitro. Surprisingly, oligomycin-A sensitized leukemia cells to BCR-ABL inhibition at concentrations of 100- to 1,000-fold below those required for inhibition of respiration. Oligomycin-A treatment rapidly led to mitochondrial membrane depolarization and reduced ATP levels, and promoted superoxide production and leukemia cell apoptosis when combined with TKI. Importantly, oligomycin-A enhanced elimination of BCR-ABL+ leukemia cells by TKI in a mouse model and in primary blast crisis CML samples. Moreover, oligomycin-A also greatly potentiated the elimination of FLT3-dependent AML cells when combined with an FLT3 TKI, both in vitro and in vivo.Conclusions: TKI therapy in leukemia cells creates a novel metabolic state that is highly sensitive to particular mitochondrial perturbations. Targeting mitochondrial metabolism as an adjuvant therapy could therefore improve therapeutic responses to TKI for patients with BCR-ABL+ and FLT3ITD leukemias. Clin Cancer Res; 21(6); 1360–72. ©2014 AACR.

Published
2023

43. Constitutively synergistic multiagent drug formulations targeting MERTK, FLT3, and BCL-2 for treatment of AML

Author

James M Kelvin, Juhi Jain, Aashis Thapa, Min Qui, Lacey A Birnbaum, Samuel G Moore, Henry Zecca, Ryan J Summers, Emma Costanza, Biaggio Uricoli, Xiaodong Wang, Nathan T Jui, Haian Fu, Yuhong Du, Deborah DeRyckere, Douglas K Graham, and Erik C Dreaden

Subjects
Article
Abstract

Although high-dose, multi-agent chemotherapy has improved leukemia survival rates in recent years, treatment outcomes remain poor in high-risk subsets, including acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) in infants. Development of new, more effective therapies for these patients is therefore an urgent, unmet clinical need. To address this challenge, we developed a nanoscale combination drug formulation that exploits ectopic expression of MERTK tyrosine kinase and dependency on BCL-2 family proteins for leukemia cell survival in pediatric AML andMLL-rearranged precursor B-cell ALL (infant ALL). In a novel, high-throughput combination drug screen, the MERTK/FLT3 inhibitor MRX-2843 synergized with venetoclax and other BCL-2 family protein inhibitors to reduce AML cell densityin vitro. Neural network models based on drug exposure and target gene expression were used to identify a classifier predictive of drug synergy in AML. To maximize the therapeutic potential of these findings, we developed a combination monovalent liposomal drug formulation that maintains ratiometric drug synergy in cell-free assays and following intracellular delivery. The translational potential of these nanoscale drug formulations was confirmed in a genotypically diverse set of primary AML patient samples and both the magnitude and frequency of synergistic responses were not only maintained but were improved following drug formulation. Together, these findings demonstrate a systematic, generalizable approach to combination drug screening, formulation, and development that maximizes therapeutic potential, was effectively applied to develop a novel nanoscale combination therapy for treatment of AML, and could be extended to other drug combinations or diseases in the future.

Published
2023

44. Machine learning classifier approaches for predicting response to RTK-type-III inhibitors demonstrate high accuracy using transcriptomic signatures and ex vivo data

Author

Mauricio H Ferrato, Adam G Marsh, Karl R Franke, Benjamin J Huang, E Anders Kolb, Deborah DeRyckere, Douglas K Grahm, Sunita Chandrasekaran, and Erin L Crowgey

Subjects
General Medicine
Abstract

Motivation The application of machine learning (ML) techniques in the medical field has demonstrated both successes and challenges in the precision medicine era. The ability to accurately classify a subject as a potential responder versus a nonresponder to a given therapy is still an active area of research pushing the field to create new approaches for applying machine-learning techniques. In this study, we leveraged publicly available data through the BeatAML initiative. Specifically, we used gene count data, generated via RNA-seq, from 451 individuals matched with ex vivo data generated from treatment with RTK-type-III inhibitors. Three feature selection techniques were tested, principal component analysis, Shapley Additive Explanation (SHAP) technique and differential gene expression analysis, with three different classifiers, XGBoost, LightGBM and random forest (RF). Sensitivity versus specificity was analyzed using the area under the curve (AUC)-receiver operating curves (ROCs) for every model developed. Results Our work demonstrated that feature selection technique, rather than the classifier, had the greatest impact on model performance. The SHAP technique outperformed the other feature selection techniques and was able to with high accuracy predict outcome response, with the highest performing model: Foretinib with 89% AUC using the SHAP technique and RF classifier. Our ML pipelines demonstrate that at the time of diagnosis, a transcriptomics signature exists that can potentially predict response to treatment, demonstrating the potential of using ML applications in precision medicine efforts. Availability and implementation https://github.com/UD-CRPL/RCDML. Supplementary information Supplementary data are available at Bioinformatics Advances online.

Published
2023

45. Screening and Development of Constitutively Synergistic Combination Drug Formulations for T Cell Acute Lymphoblastic Leukemia

Author

James M Kelvin, Dan Y Zhang, Evelyn K Williams, Samuel G Moore, Lacey A Birnbaum, Henry Zecca, Xiaodong Wang, Juhi Jain, Min Qui, Nathan T Jui, Haian Fu, Yuhong Du, Melissa L Kemp, Wilbur A Lam, Deborah DeRyckere, Douglas K Graham, and Erik C Dreaden

Abstract

Advances in multiagent chemotherapy have led to recent improvements in overall survival for patients with acute lymphoblastic leukemia (ALL); however, a significant fraction do not respond to frontline chemotherapy or later relapse with recurrent disease, after which long-term survival rates remain low. To address the challenge of developing new, effective treatment options for these patients, we conducted a series of high-throughput combination drug screens to identify chemotherapies that synergize in a lineage-specific manner with MRX-2843, a small molecule dual MERTK and FLT3 kinase inhibitor currently in clinical testing for treatment of relapsed/refractory leukemias and solid tumors. Using experimental and computational approaches, we found that MRX-2843 synergized strongly – and in a ratio-dependent manner – with vincristine chemotherapy to inhibit T-ALL cell expansion and, based on these findings, we developed multiagent lipid nanoparticle formulations of these drugs that not only constitutively maintained ratiometric drug synergy following T-ALL cell delivery, but also improved anti-leukemic activity following drug encapsulation. To determine the clinical relevance of these combination drug formulations and the therapeutic impact of ratiometric drug synergy, we compared the efficacy of lipid nanoparticles comprising synergistic, additive, and antagonistic ratios of MRX-2843 and vincristine, and observed that trends in in vitro synergy were directly recapitulated in primary T-ALL patient samples. Together, these findings present a systematic approach to high-throughput combination drug screening and multiagent drug delivery that maximizes the therapeutic potential of combined MRX-2843 and vincristine in T-ALL. This broadly generalizable approach could lead to the development of constitutively synergistic combination products for the treatment of cancer and other diseases.

Published
2022

46. Abstract 2335: Targeting a positive feedback loop of MERTK and STAT3 during macrophage differentiation may provide anti-tumor immune function

Author

Dan Yan, Justus M. Huelse, Swati Sharma Bhasin, Manoj Bhasin, Deborah DeRyckere, and Douglas K. Graham

Subjects
Cancer Research, Oncology
Abstract

MERTK tyrosine kinase expression is upregulated upon monocyte to macrophage differentiation. This receptor tyrosine kinase enables macrophages to efficiently clear apoptotic cells to maintain tissue homeostasis. Activation of MERTK in macrophages during efferocytosis promotes an immunosuppressive phenotype, which is hijacked by tumors to inhibit anti-tumor immunity. Further, this immunosuppressive phenotype in MERTK expressing macrophages in the tumor microenvironment is reversed using MERTK selective inhibitors, suggesting that inhibiting MERTK expression or activity in the tumor microenvironment may be of therapeutic benefit in the treatment of cancer. In an attempt to further understand the mechanism of MERTK upregulation in macrophages, we treated the monocytic leukemia cell line THP1 with PMA to differentiate the cells from a monocytic morphology to an adherent macrophage-like morphology. Following differentiation of the THP-1 cells, MERTK upregulation was confirmed by western blot and flow cytometry. In a similar fashion, treatment with of murine bone marrow derived monocytic cells with PMA induced MERTK expression. Proteomics cytokine array analysis also revealed increased levels of multiple chemokines including MCP-1 and RANTES. Treatment of THP-1 cells with a pan STAT inhibitor in the presence of PMA abrogated the induction of MERTK expression, suggesting a critical role for STAT pathways in the regulation of MERTK expression during monocyte differentiation to macrophages. Specifically, the STAT3 pathway was found to be important in MERTK regulation, as treatment with a STAT3 selective inhibitor was sufficient to abrogate MERTK expression in the presence of PMA treatment. Single cell sequencing of the immune cells in the bone marrow demonstrated Stat3 expression in monocytic lineage cells. Furthermore, both CD11C+Ly6c+CD45+ population and MERTK+CD11C+Ly6c+CD45+ populations were lower in Stat3 -/- bone marrow cells treated with PMA relative to the untreated cells. Collectively, these data suggest that MERTK expression during macrophage maturation may be mediated by STAT3 activation. Previously published data have also demonstrated that STAT3 can be activated downstream of MERTK activation. Thus, we propose that MERTK and STAT3 form a positive feedback loop during macrophage maturation. Treatment with either a MERTK and/or STAT3 inhibitor may interfere with this feedback pathway, potentially reversing an immunosuppressive phenotype in the macrophages in the tumor microenvironment. Citation Format: Dan Yan, Justus M. Huelse, Swati Sharma Bhasin, Manoj Bhasin, Deborah DeRyckere, Douglas K. Graham. Targeting a positive feedback loop of MERTK and STAT3 during macrophage differentiation may provide anti-tumor immune function [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 2335.

Published
2023

47. Abstract 4991: Phosphorylation of MERTK is required for nuclear localization in non-small cell lung cancer (NSCLC)

Author

K.M. Tanim, Deborah DeRyckere, and Douglas K. Graham

Subjects
Cancer Research, Oncology
Abstract

MERTK is a transmembrane receptor that belongs to the TAM (TYRO3, AXL, MERTK) family of receptor tyrosine kinases. The role of MERTK in cancer progression and resistance to therapies are reported in many cancer types, including non-small cell lung cancer (NSCLC). In canonical signaling, MERTK is localized at the cell membrane and mediates intracellular signal transduction pathways. Non-canonical signaling of receptor tyrosine kinases (RTKs) has been reported, including signaling which occurs when RTKs translocate to the nucleus. Our group previously reported nuclear localization of MERTK in leukemia cells and we now extend these findings to non-small cell lung cancer. We found exogenous MERTK localized to the nucleus in cells transfected with a plasmid expressing wild-type MERTK. Additionally, endogenous nuclear MERTK was phosphorylated, suggesting that MERTK may have a functional role in the nucleus. MERTK kinase inhibitor MRX-2843 modulates its nuclear translocation. Introducing point mutations to MERTK autophosphorylation sites diminished nuclear translocation in comparison to cells transfected with wild-type MERTK. Our analysis of proteins that may interact with MERTK to regulate nuclear localization and function demonstrated co-immunoprecipitation of nuclear MERTK and STAT1. Current studies are underway to further explore nuclear MERTK functions and how these roles may be modulated upon interaction with STAT1. Citation Format: K.M. Tanim, Deborah DeRyckere, Douglas K. Graham. Phosphorylation of MERTK is required for nuclear localization in non-small cell lung cancer (NSCLC). [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 4991.

Published
2023

50. Synthetic matrix scaffolds engineer the in vivo tumor immune microenvironment for immunotherapy screening

Author

Meghan J. O'Melia, Adriana Mulero‐Russe, Jihoon Kim, Alyssa Pybus, Deborah DeRyckere, Levi Wood, Douglas K. Graham, Edward Botchwey, Andrés J. García, and Susan N. Thomas

Subjects
Mice, Mechanics of Materials, Mechanical Engineering, Neoplasms, Tumor Microenvironment, Animals, Humans, Immunologic Factors, Reproducibility of Results, General Materials Science, Immunotherapy, Article
Abstract

Immunotherapy has emerged as one of the most powerful anti-cancer therapy classes but is stymied by the limits of existing preclinical models with respect to disease latency and reproducibility. In addition, the influence of differing immune microenvironments within tumors observed clinically and associated with immunotherapeutic resistance cannot be tuned to facilitate drug testing workflows without changing model system or laborious genetic approaches. To address this testing platform gap in the immune oncology drug development pipeline, we deployed engineered biomaterials as a scaffold to increase tumor formation rate, decrease disease latency, and diminish variability of immune infiltrates into tumors formed from murine mammary carcinoma cell lines implanted into syngeneic mice. By altering synthetic gel formulations that reshaped infiltrating immune cells within the tumor, responsiveness of the same tumor model to varying classes of cancer immunotherapies, including in situ vaccination with a molecular adjuvant and immune checkpoint blockade, diverged. These results demonstrate the significant role the local immune microenvironment plays in immunotherapeutic response. These engineered tumor immune microenvironments therefore improve upon the limitations of current breast tumor models used for immune oncology drug screening to enable immunotherapeutic testing relevant to the variability in tumor immune microenvironments underlying immunotherapeutic resistance seen in human patients.

Published
2022

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