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1. In silico predicted compound targeting the IQGAP1-GRD domain selectively inhibits growth of human acute myeloid leukemia

Author

Deepak M. Sahasrabudhe, Jane L. Liesveld, Mohammad Minhajuddin, Niloy A. Singh, Subhangi Nath, Vishuwes Muthu Kumar, Marlene Balys, Andrew G. Evans, Mitra Azadniv, Jeanne N. Hansen, Michael W. Becker, Ashoke Sharon, V. Kaye Thomas, Richard G. Moore, Manoj K. Khera, Craig T. Jordan, and Rakesh K. Singh

Subjects
Medicine, Science
Abstract

Abstract Acute myeloid leukemia (AML) is fatal in the majority of adults. Identification of new therapeutic targets and their pharmacologic modulators are needed to improve outcomes. Previous studies had shown that immunization of rabbits with normal peripheral WBCs that had been incubated with fluorodinitrobenzene elicited high titer antibodies that bound to a spectrum of human leukemias. We report that proteomic analyses of immunoaffinity-purified lysates of primary AML cells showed enrichment of scaffolding protein IQGAP1. Immunohistochemistry and gene-expression analyses confirmed IQGAP1 mRNA overexpression in various cytogenetic subtypes of primary human AML compared to normal hematopoietic cells. shRNA knockdown of IQGAP1 blocked proliferation and clonogenicity of human leukemia cell-lines. To develop small molecules targeting IQGAP1 we performed in-silico screening of 212,966 compounds, selected 4 hits targeting the IQGAP1-GRD domain, and conducted SAR of the ‘fittest hit’ to identify UR778Br, a prototypical agent targeting IQGAP1. UR778Br inhibited proliferation, induced apoptosis, resulted in G2/M arrest, and inhibited colony formation by leukemia cell-lines and primary-AML while sparing normal marrow cells. UR778Br exhibited favorable ADME/T profiles and drug-likeness to treat AML. In summary, AML shows response to IQGAP1 inhibition, and UR778Br, identified through in-silico studies, selectively targeted AML cells while sparing normal marrow.

Published
2024
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2. SCUBA implements a storage format-agnostic API for single-cell data access in R [version 1; peer review: awaiting peer review]

Author

William M. Showers, Jairav Desai, Krysta L. Engel, Clayton Smith, Craig T. Jordan, and Austin E. Gillen

Subjects
Software Tool Article, Articles, single-cell sequencing, multimodal, software tools, R package, Python, visualization
Abstract

While robust tools exist for the analysis of single-cell datasets in both Python and R, interoperability is limited, and analysis tools generally only accept one object class. Considerable programming expertise is required to integrate tools across package ecosystems into a comprehensive analysis, due to their differing languages and internal data structures. This complicates validation of results and leads to inconsistent visualizations between analysis suites. Conversion between object formats is the most common solution, but this is difficult and error-prone due to the rapid pace of development of the analysis suites and their underlying data structures. To address this, we created SCUBA (Single-Cell Unified Backend API), an R package that implements a unified data access API for all common R and Python single-cell object formats. SCUBA extends the data access approach from the widely used Seurat package to SingleCellExperiment and anndata objects. SCUBA also implements new data-specific access functions for all supported object types. Performance scales well across all SCUBA-supported formats. In addition to performance, SCUBA offers several advantages over object conversion for the visualization and further analysis of pre-processed single-cell data. First, SCUBA extracts only data required for the operation at hand, leaving the original object unmodified. This process is simpler, less error prone, and less memory intensive than object conversion, which operates on the entire dataset. Second, code written with SCUBA can use any supported object class as input, with simple and consistent syntax across object formats. This allows a single analysis script or package (like our interactive single-cell browser, scExploreR) to work seamlessly with multiple object types, reducing the complexity of the code and improving both readability and reproducibility. Adoption of SCUBA will ultimately improve collaboration and reproducible research in single-cell analysis by lowering the barriers between package ecosystems.

Published
2024
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3. Predictive Models for Long Term Survival of AML Patients Treated with Venetoclax and Azacitidine or 7+3 Based on Post Treatment Events and Responses: Retrospective Cohort Study

Author

Nazmul Islam, Jamie S Reuben, Justin Dale, James W Coates, Karan Sapiah, Frank R Markson, Craig T Jordan, and Clay Smith

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BackgroundThe treatment of acute myeloid leukemia (AML) in older or unfit patients typically involves a regimen of venetoclax plus azacitidine (ven/aza). Toxicity and treatment responses are highly variable following treatment initiation and clinical decision-making continually evolves in response to these as treatment progresses. To improve clinical decision support (CDS) following treatment initiation, predictive models based on evolving and dynamic toxicities, disease responses, and other features should be developed. ObjectiveThis study aims to generate machine learning (ML)–based predictive models that incorporate individual predictors of overall survival (OS) for patients with AML, based on clinical events occurring after the initiation of ven/aza or 7+3 regimen. MethodsData from 221 patients with AML, who received either the ven/aza (n=101 patients) or 7+3 regimen (n=120 patients) as their initial induction therapy, were retrospectively analyzed. We performed stratified univariate and multivariate analyses to quantify the association between toxicities, hospital events, and short-term disease responses and OS for the 7+3 and ven/aza subgroups separately. We compared the estimates of confounders to assess potential effect modifications by treatment. 17 ML-based predictive models were developed. The optimal predictive models were selected based on their predictability and discriminability using cross-validation. Uncertainty in the estimation was assessed through bootstrapping. ResultsThe cumulative incidence of posttreatment toxicities varies between the ven/aza and 7+3 regimen. A variety of laboratory features and clinical events during the first 30 days were differentially associated with OS for the two treatments. An initial transfer to intensive care unit (ICU) worsened OS for 7+3 patients (aHR 1.18, 95% CI 1.10-1.28), while ICU readmission adversely affected OS for those on ven/aza (aHR 1.24, 95% CI 1.12-1.37). At the initial follow-up, achieving a morphologic leukemia free state (MLFS) did not affect OS for ven/aza (aHR 0.99, 95% CI 0.94-1.05), but worsened OS following 7+3 (aHR 1.16, 95% CI 1.01-1.31) compared to that of complete remission (CR). Having blasts over 5% at the initial follow-up negatively impacted OS for both 7+3 (P

Published
2024
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4. Lysosomal acid lipase A modulates leukemia stem cell response to venetoclax/tyrosine kinase inhibitor combination therapy in blast phase chronic myeloid leukemia

Author

Mohd Minhajuddin, Amanda Winters, Haobin Ye, Shanshan Pei, Brett Stevens, Austin Gillen, Krysta Engel, Stephanie Gipson, Monica Ransom, Maria Amaya, Anagha Inguva, Maura Gasparetto, Mark J. Althoff, Regan Miller, Ian Shelton, Hunter Tolison, Anna Krug, Rachel Culp-Hill, Angelo D’Alessandro, Daniel W Sherbenou, Daniel A. Pollyea, Clayton Smith, and Craig T Jordan

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

The treatment of blast phase chronic myeloid leukemia (bpCML) remains a challenge due at least in part to drug resistance of leukemia stem cells (LSCs). Recent clinical evidence suggests that the BCL-2 inhibitor venetoclax in combination with ABL-targeting tyrosine kinase inhibitors (TKIs) can eradicate bpCML LSCs. In this report, we employed preclinical models of bpCML to investigate the efficacy and underlying mechanism of LSC-targeting with venetoclax/TKI combinations. Transcriptional analysis of LSCs exposed to venetoclax and dasatinib revealed upregulation of genes involved in lysosomal biology, in particular lysosomal acid lipase A (LIPA), a regulator of free fatty acids. Metabolomic analysis confirmed increased levels of free fatty acids in response to venetoclax/dasatinib. Pre-treatment of leukemia cells with bafilomycin, a specific lysosome inhibitor, or genetic perturbation of LIPA, resulted in increased sensitivity of leukemia cells toward venetoclax/dasatinib, implicating LIPA in treatment resistance. Importantly, venetoclax/dasatinib treatment does not affect normal stem cell function, suggestive of a leukemia-specific response. These results demonstrate that venetoclax/dasatinib is an LSCselective regimen in bpCML and that disrupting LIPA and fatty acid transport enhances venetoclax/dasatinib response in targeting LSCs, providing a rationale for exploring lysosomal disruption as an adjunct therapeutic strategy to prolong disease remission.

Published
2024
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5. Multi-gene measurable residual disease assessed by digital polymerase chain reaction has clinical and biological utility in acute myeloid leukemia patients receiving venetoclax/azacitidine

Author

Amanda C. Winters, Mohd Minhajuddin, Brett M. Stevens, Ajay Major, Grace Bosma, Diana Abbott, Nicholas Miltgen, Ji Yuan, Amy L. Treece, Bradford J. Siegele, Mark D. Ewalt, Jonathan A. Gutman, Craig T. Jordan, and Daniel A. Pollyea

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Venetoclax with azacitidine (ven/aza) is a lower-intensity therapeutic regimen that has been shown to improve outcomes in elderly patients with acute myeloid leukemia (AML). Measurable residual disease (MRD) using flow cytometry is a valuable tool for the prediction of relapse in AML using conventional therapies and ven/aza; however, the prognostic value for broadscale molecular MRD after ven/aza treatment is less clear. We aimed to determine the utility of retrospective assessment using multi-gene molecular MRD by droplet digital polymerase chain reaction (ddPCR). We found this approach correlates with outcomes in a cohort of patients receiving frontline ven/aza for AML. The predictive value of ddPCR MRD persisted when NPM1 mutations were removed from analysis, as well as after adjustment for the impact of stem cell transplant on outcomes. Late achievement of MRD negativity, including after SCT, was still associated with superior outcomes compared to persistently detectable MRD. We further explored the impact of ven/aza on the burden of different classes of mutations, and identified the persistence of splicing factor mutations, commonly associated with MDS, as a consistent finding after ven/aza treatment. These data add to our understanding of the effects of ven/aza on AML disease biology and provide details on molecular depth of remission that can guide prospective trials in the future.

Published
2023
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7. Higher-dose venetoclax with measurable residual disease-guided azacitidine discontinuation in newly diagnosed acute myeloid leukemia

Author

Jonathan A. Gutman, Amanda Winters, Andrew Kent, Maria Amaya, Christine McMahon, Clayton Smith, Craig T. Jordan, Brett Stevens, Mohammad Minhajuddin, Shanshan Pei, Jeffrey Schowinsky, Jennifer Tobin, Kelly O’Brien, Angela Falco, Elizabeth Taylor, Constance Brecl, Katie Zhou, Phuong Ho, Connor Sohalski, Jessica Dell-Martin, Olivia Ondracek, Diana Abbott, and Daniel A. Pollyea

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Venetoclax+azacitidine is the standard of care for newly-diagnosed patients with acute myeloid leukemia (AML) for whom intensive chemotherapy is inappropriate. Efforts to optimize this regimen are necessary. We designed a clinical trial to investigate two hypotheses: i) higher doses of venetoclax are tolerable and more effective, and ii) azacitidine can be discontinued after deep remissions. Forty-two newly diagnosed AML patients were enrolled in the investigator-initiated High Dose Discontinuation Azacitidine+Venetoclax (HiDDAV) Study (clinicaltrials gov. Identifier: NCT03466294). Patients received one to three “induction” cycles of venetoclax 600 mg daily with azacitidine. Responders received MRD-positive or MRDnegative “maintenance” arms: azacitidine with 400 mg venetoclax or 400 mg venetoclax alone, respectively. The toxicity profile of HiDDAV was similar to 400 mg venetoclax. The overall response rate was 66.7%; the duration of response (DOR), event-free survival (EFS) and overall survival were 12.9, 7.8 and 9.8 months, respectively. The MRD negativity rate was 64.3% by flow cytometry and 25.0% when also measured by droplet digital polymerase chain recation. MRD-negative patients by flow cytometry had improved DOR and EFS; more stringent measures of MRD negativity were not associated with improved OS, DOR or EFS. Using MRD to guide azacitidine discontinuation did not lead to improved DOR, EFS or OS compared to patients who discontinued azacitidine without MRD guidance. Within the context of this study design, venetoclax doses >400 mg with azacitidine were well tolerated but not associated with discernible clinical improvement, and MRD may not assist in recommendations to discontinue azacitidine. Other strategies to optimize, and for some patients, de-intensify, venetoclax+azacitidine regimens are needed.

Published
2023
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8. Therapeutic resistance in acute myeloid leukemia cells is mediated by a novel ATM/mTOR pathway regulating oxidative phosphorylation

Author

Hae J Park, Mark A Gregory, Vadym Zaberezhnyy, Andrew Goodspeed, Craig T Jordan, Jeffrey S Kieft, and James DeGregori

Subjects
AML, drug resistance, bone marrow, Medicine, Science, Biology (General), QH301-705.5
Abstract

While leukemic cells are susceptible to various therapeutic insults, residence in the bone marrow microenvironment typically confers protection from a wide range of drugs. Thus, understanding the unique molecular changes elicited by the marrow is of critical importance toward improving therapeutic outcomes. In this study, we demonstrate that aberrant activation of oxidative phosphorylation serves to induce therapeutic resistance in FLT3 mutant human AML cells challenged with FLT3 inhibitor drugs. Importantly, our findings show that AML cells are protected from apoptosis following FLT3 inhibition due to marrow-mediated activation of ATM, which in turn upregulates oxidative phosphorylation via mTOR signaling. mTOR is required for the bone marrow stroma-dependent maintenance of protein translation, with selective polysome enrichment of oxidative phosphorylation transcripts, despite FLT3 inhibition. To investigate the therapeutic significance of this finding, we tested the mTOR inhibitor everolimus in combination with the FLT3 inhibitor quizartinib in primary human AML xenograft models. While marrow resident AML cells were highly resistant to quizartinib alone, the addition of everolimus induced profound reduction in tumor burden and prevented relapse. Taken together, these data provide a novel mechanistic understanding of marrow-based therapeutic resistance and a promising strategy for improved treatment of FLT3 mutant AML patients.

Published
2022
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9. Estimating the Health Effects of Adding Bicycle and Pedestrian Paths at the Census Tract Level: Multiple Model Comparison

Author

Ross Gore, Christopher J Lynch, Craig A Jordan, Andrew Collins, R Michael Robinson, Gabrielle Fuller, Pearson Ames, Prateek Keerthi, and Yash Kandukuri

Subjects
Public aspects of medicine, RA1-1270
Abstract

BackgroundAdding additional bicycle and pedestrian paths to an area can lead to improved health outcomes for residents over time. However, quantitatively determining which areas benefit more from bicycle and pedestrian paths, how many miles of bicycle and pedestrian paths are needed, and the health outcomes that may be most improved remain open questions. ObjectiveOur work provides and evaluates a methodology that offers actionable insight for city-level planners, public health officials, and decision makers tasked with the question “To what extent will adding specified bicycle and pedestrian path mileage to a census tract improve residents’ health outcomes over time?” MethodsWe conducted a factor analysis of data from the American Community Survey, Center for Disease Control 500 Cities project, Strava, and bicycle and pedestrian path location and use data from two different cities (Norfolk, Virginia, and San Francisco, California). We constructed 2 city-specific factor models and used an algorithm to predict the expected mean improvement that a specified number of bicycle and pedestrian path miles contributes to the identified health outcomes. ResultsWe show that given a factor model constructed from data from 2011 to 2015, the number of additional bicycle and pedestrian path miles in 2016, and a specific census tract, our models forecast health outcome improvements in 2020 more accurately than 2 alternative approaches for both Norfolk, Virginia, and San Francisco, California. Furthermore, for each city, we show that the additional accuracy is a statistically significant improvement (P2 weeks of poor physical health days in the census tract within 1.83% (SD 0.57%). For San Francisco (n=49 census tracts), our approach estimates, on average, that the percentage of individuals who had a stroke in the census tract is within 1.81% (SD 0.52%), and the percentage of individuals with diabetes in the census tract is within 1.26% (SD 0.91%). ConclusionsWe propose and evaluate a methodology to enable decision makers to weigh the extent to which 2 bicycle and pedestrian paths of equal cost, which were proposed in different census tracts, improve residents’ health outcomes; identify areas where bicycle and pedestrian paths are unlikely to be effective interventions and other strategies should be used; and quantify the minimum amount of additional bicycle path miles needed to maximize health outcome improvements. Our methodology shows statistically significant improvements, compared with alternative approaches, in historical accuracy for 2 large cities (for 2016) within different geographic areas and with different demographics.

Published
2022
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11. Therapy-Resistant Acute Myeloid Leukemia Stem Cells Are Resensitized to Venetoclax + Azacitidine by Targeting Fatty Acid Desaturases 1 and 2

Author

Rachel Culp-Hill, Brett M. Stevens, Courtney L. Jones, Shanshan Pei, Monika Dzieciatkowska, Mohammad Minhajuddin, Craig T. Jordan, and Angelo D’Alessandro

Subjects
acute myeloid leukemia, leukemic stem cells, fatty acid metabolism, lipidomics, Microbiology, QR1-502
Abstract

Recent advances in targeting leukemic stem cells (LSCs) using venetoclax with azacitidine (ven + aza) has significantly improved outcomes for de novo acute myeloid leukemia (AML) patients. However, patients who relapse after traditional chemotherapy are often venetoclax-resistant and exhibit poor clinical outcomes. We previously described that fatty acid metabolism drives oxidative phosphorylation (OXPHOS) and acts as a mechanism of LSC survival in relapsed/refractory AML. Here, we report that chemotherapy-relapsed primary AML displays aberrant fatty acid and lipid metabolism, as well as increased fatty acid desaturation through the activity of fatty acid desaturases 1 and 2, and that fatty acid desaturases function as a mechanism of recycling NAD+ to drive relapsed LSC survival. When combined with ven + aza, the genetic and pharmacologic inhibition of fatty acid desaturation results in decreased primary AML viability in relapsed AML. This study includes the largest lipidomic profile of LSC-enriched primary AML patient cells to date and indicates that inhibition of fatty acid desaturation is a promising therapeutic target for relapsed AML.

Published
2023
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12. Real-world experience of venetoclax with azacitidine for untreated patients with acute myeloid leukemia

Author

Amanda C. Winters, Jonathan A. Gutman, Enkhtsetseg Purev, Molly Nakic, Jennifer Tobin, Stephanie Chase, Jeff Kaiser, Lindsey Lyle, Chelsey Boggs, Keri Halsema, Jeffrey T. Schowinsky, Julie Rosser, Mark D. Ewalt, Bradford Siegele, Vishal Rana, Steven Schuster, Diana Abbott, Brett M. Stevens, Craig T. Jordan, Clayton Smith, and Daniel A. Pollyea

Subjects
Specialties of internal medicine, RC581-951
Abstract

Abstract: Venetoclax is approved for older untreated acute myeloid leukemia (AML) patients. Venetoclax was available prior to approval off-label. We assessed our single-institution off-label experience with venetoclax/azacitidine, comparing outcomes with a clinical trial cohort that administered this regimen at the same institution. Thirty-three untreated AML patients unfit or unwilling to receive induction chemotherapy and prescribed venetoclax/azacitidine off-trial were retrospectively analyzed and compared with 33 patients who received the same therapy on trial. Outcomes were compared, and comparisons were made to a theoretical scenario in which off-trial patients received induction. Digital droplet polymerase chain reaction evaluated measurable residual disease (MRD). Off-trial venetoclax was attainable in nearly all patients for whom this was desired. The complete remission (CR)/CR with incomplete blood count recovery rate was 63.3% for off-trial patients who received treatment and 84.9% for trial patients (P = .081). The median overall survival for off-trial patients who received treatment was 381 days (95% confidence interval [CI], 174, not reached) vs 880 days (95% CI, 384, not reached) for trial patients (P = .041). Prior exposure to hypomethylating agents was associated with worse outcomes. Response rates with venetoclax/azacitidine were not inferior to a theoretical scenario in which patients received induction, and early death rates were less than expected with induction. MRD negativity was achievable. Newly diagnosed AML patients treated in a “real-world” scenario with off-trial venetoclax/azacitidine had inferior outcomes compared with patients treated in the setting of a clinical trial. Additionally, this therapy may be as effective, and less toxic, when compared with induction chemotherapy.

Published
2019
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13. Enriching for human acute myeloid leukemia stem cells using reactive oxygen species-based cell sorting

Author

Brett M. Stevens, Cristiana O’Brien, Craig T. Jordan, and Courtney L. Jones

Subjects
Flow cytometry/mass cytometry, Cancer, Metabolism, Stem cells, Science (General), Q1-390
Abstract

Summary: Isolation of leukemia stem cells presents a challenge due to the heterogeneity of the immunophenotypic markers commonly used to identify blood stem cells. Several studies have reported that relative levels of reactive oxygen species (ROS) can be used to enrich for stem cell populations, suggesting a potential alternative to surface antigen-based methods. Here, we describe a protocol to enrich for stem cells from human acute myeloid leukemia specimens using relative levels of ROS. This protocol provides consistent enrichment of leukemia stem cells.For complete details on the use and execution of this protocol, please refer to Lagadinou et al. (2013) and Pei et al. (2018).

Published
2021
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15. 309 MYC Inhibition Overcomes IMiD Resistance in Heterogeneous Multiple Myeloma Populations

Author

Lorraine Davis, Zachary J. Walker, Denis Ohlstrom, Brett M. Stevens, Peter A. Forsberg, Tomer M. Mark, Craig T. Jordan, and Daniel W. Sherbenou

Subjects
Medicine
Abstract

OBJECTIVES/GOALS: Immunomodulatory drugs (IMiDs) are critical to multiple myeloma (MM) disease control. IMiDs act by inducing Cereblon-dependent degradation of IKZF1 and IKZF3, which leads to IRF4 and MYC downregulation (collectively termed the “Ikaros axis”). We therefore hypothesized that IMiD treatment fails to downregulate the Ikaros axis in IMiD resistant MM. METHODS/STUDY POPULATION: To measure IMiD-induced Ikaros axis downregulation, we designed an intracellular flow cytometry assay that measured relative protein levels of IKZF1, IKZF3, IRF4 and MYC in MM cells following ex vivo treatment with the IMiD Pomalidomide (Pom). We established this assay using Pom-sensitive parental and dose-escalated Pom-resistant MM cell lines before assessing Ikaros axis downregulation in CD38+CD138+ MM cells in patient samples (bone marrow aspirates). To assess the Ikaros axis in the context of MM intratumoral heterogeneity, we used a 35-marker mass cytometry panel to simultaneously characterize MM subpopulations in patient samples. Lastly, we determined ex vivo drug sensitivity in patient samples via flow cytometry. RESULTS/ANTICIPATED RESULTS: Our hypothesis was supported in MM cell lines, as resistant lines showed no IMiD-induced decrease in any Ikaros axis proteins. However, when assessed in patient samples, Pom treatment caused a significant decrease in IKZF1, IKZF3 and IRF4 regardless of IMiD sensitivity. Mass cytometry in patient samples revealed that individual Ikaros axis proteins were differentially expressed between subpopulations. When correlating this with ex vivo Pom sensitivity of MM subpopulations, we observed that low IKZF1 and IKZF3 corresponded to Pom resistance. Interestingly, most of these resistant populations still expressed MYC. We therefore assessed whether IMiD resistant MM was MYC dependent by treating with MYCi975. In 88% (7/8) of patient samples tested, IMiD resistant MM cells were sensitive to MYC inhibition. DISCUSSION/SIGNIFICANCE: While our findings did not support our initial hypothesis, our data suggest a mechanism where MYC expression becomes Ikaros axis independent to drive IMiD resistance, and resistant MM is still dependent on MYC. This suggests targeting MYC directly or indirectly via a mechanism to be determined may be an effective strategy to eradicate IMiD resistant MM.

Published
2022
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16. Pro-inflammatory cytokine blockade attenuates myeloid expansion in a murine model of rheumatoid arthritis

Author

Giovanny Hernandez, Taylor S. Mills, Jennifer L. Rabe, James S. Chavez, Susan Kuldanek, Gregory Kirkpatrick, Leila Noetzli, Widian K. Jubair, Michelle Zanche, Jason R. Myers, Brett M. Stevens, Courtney J. Fleenor, Biniam Adane, Charles A. Dinarello, John Ashton, Craig T. Jordan, Jorge Di Paola, James R. Hagman, V. Michael Holers, Kristine A. Kuhn, and Eric M. Pietras

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Rheumatoid arthritis (RA) is a debilitating autoimmune disease characterized by chronic inflammation and progressive destruction of joint tissue. It is also characterized by aberrant blood phenotypes including anemia and suppressed lymphopoiesis that contribute to morbidity in RA patients. However, the impact of RA on hematopoietic stem cells (HSC) has not been fully elucidated. Using a collagen-induced mouse model of human RA, we identified systemic inflammation and myeloid overproduction associated with activation of a myeloid differentiation gene program in HSC. Surprisingly, despite ongoing inflammation, HSC from arthritic mice remain in a quiescent state associated with activation of a proliferation arrest gene program. Strikingly, we found that inflammatory cytokine blockade using the interleukin-1 receptor antagonist anakinra led to an attenuation of inflammatory arthritis and myeloid expansion in the bone marrow of arthritic mice. In addition, anakinra reduced expression of inflammation-driven myeloid lineage and proliferation arrest gene programs in HSC of arthritic mice. Altogether, our findings show that inflammatory cytokine blockade can contribute to normalization of hematopoiesis in the context of chronic autoimmune arthritis.

Published
2020
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17. Characterization and targeting of malignant stem cells in patients with advanced myelodysplastic syndromes

Author

Brett M. Stevens, Nabilah Khan, Angelo D’Alessandro, Travis Nemkov, Amanda Winters, Courtney L. Jones, Wei Zhang, Daniel A. Pollyea, and Craig T. Jordan

Subjects
Science
Abstract

Myelodysplastic syndrome (MDS) arises from mutations in hematopoietic stem cells (HSCs). Here, the authors demonstrate that HSCs in higher-risk MDS express the surface marker CD123 and are characterized by activation of protein synthesis machinery and increased oxidative phosphorylation.

Published
2018
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19. The Hematopoietic Oxidase NOX2 Regulates Self-Renewal of Leukemic Stem Cells

Author

Biniam Adane, Haobin Ye, Nabilah Khan, Shanshan Pei, Mohammad Minhajuddin, Brett M. Stevens, Courtney L. Jones, Angelo D’Alessandro, Julie A. Reisz, Vadym Zaberezhnyy, Maura Gasparetto, Tzu-Chieh Ho, Kathleen K. Kelly, Jason R. Myers, John M. Ashton, Julie Siegenthaler, Tsutomu Kume, Eric L. Campbell, Daniel A. Pollyea, Michael W. Becker, and Craig T. Jordan

Subjects
Biology (General), QH301-705.5
Abstract

Summary: The NADPH-dependent oxidase NOX2 is an important effector of immune cell function, and its activity has been linked to oncogenic signaling. Here, we describe a role for NOX2 in leukemia-initiating stem cell populations (LSCs). In a murine model of leukemia, suppression of NOX2 impaired core metabolism, attenuated disease development, and depleted functionally defined LSCs. Transcriptional analysis of purified LSCs revealed that deficiency of NOX2 collapses the self-renewal program and activates inflammatory and myeloid-differentiation-associated programs. Downstream of NOX2, we identified the forkhead transcription factor FOXC1 as a mediator of the phenotype. Notably, suppression of NOX2 or FOXC1 led to marked differentiation of leukemic blasts. In xenotransplantation models of primary human myeloid leukemia, suppression of either NOX2 or FOXC1 significantly attenuated disease development. Collectively, these findings position NOX2 as a critical regulator of malignant hematopoiesis and highlight the clinical potential of inhibiting NOX2 as a means to target LSCs. : The NADPH-dependent oxidase NOX2 is important for normal myeloid cell function. Adane et al. show that NOX2 is expressed in leukemic stem cells, where it regulates the balance of myeloid differentiation and self-renewal. Deficiency of NOX2 altered core metabolism, exacerbated inflammatory signaling, and limited in vivo disease development. Keywords: acute myeloid leukemia, leukemia stem cells, differentiation, self-renewal, glycolysis, fatty acid oxidation, NOX2, p22Phox, ROS, FOXC1, CEBPε, NF-κB

Published
2019
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20. In silico predicted compound targeting the IQGAP1-GRD domain selectively inhibits growth of human acute myeloid leukemia

Author

Deepak M. Sahasrabudhe, Jane L. Liesveld, Mohammad Minhajuddin, Niloy A. Singh, Subhangi Nath, Vishuwes M. Kumar, Marlene Balys, Andrew G. Evans, Mitra Azadniv, Jeanne N. Hansen, Michael W. Becker, Ashoke Sharon, V Kaye Thomas, Richard G. Moore, Manoj K. Khera, Craig T. Jordan, and Rakesh K. Singh

Abstract

Acute myeloid leukemia (AML) is fatal in majority of adults. Identification of new therapeutic targets and their pharmacologic modulators are needed to improve outcomes. Previous studies had shown that immunization of rabbits with normal peripheral WBCs that had been incubated with fluorodinitrobenzene elicited high titer antibodies that bound to a spectrum of human leukemias. We report that proteomic analyses of immunoaffinity-purified lysates of primary AML cells showed enrichment of scaffolding protein IQGAP1. Immunohistochemistry and gene-expression analyses confirmed IQGAP1 mRNA overexpression in various cytogenetic subtypes of primary human AML compared to normal hematopoietic cells. shRNA knockdown of IQGAP1 blocked proliferation and clonogenicity of human leukemia cell-lines. To develop small molecules targeting IQGAP1 we performed in-silico screening of 212,966 compounds, selected 4 hits targeting IQGAP1-GRD domain, and conducted SAR of ‘fittest hit’ to identify UR778Br, a prototypical agent targeting IQGAP1. UR778Br inhibited proliferation, induced apoptosis, G2/M arrest, and colony formation by leukemia cell-lines and primary-AML while sparing normal marrow cells. IQGAP1/F-actin showed co-localization and UR778Br induced filopodia formation in U937 cells. UR778Br exhibited favorable ADME/T profiles and drug-likeness to treat AML. In summary, AML shows dependency on IQGAP1 and UR778Br, identified through in-silico studies, selectively targeted AML cells while sparing normal marrow.

Published
2023

21. Figure S5 from A Small-Molecule Inhibitor of WEE1, AZD1775, Synergizes with Olaparib by Impairing Homologous Recombination and Enhancing DNA Damage and Apoptosis in Acute Leukemia

Author

Christopher C. Porter, Rajeev Vibhakar, Sujatha Venkataraman, Craig T. Jordan, Chengjing Zhou, Susan P. Fosmire, Lori Gardner, Dmitry Baturin, Jonathan C. Snedeker, and Tamara B. Garcia

Abstract

Cell cycle analysis of acute leukemia cells treated with olaparib and AZD1775. A. The indicated cell lines were treated with DMSO (vehicle), olaparib (2 uM), and/or AZD1775 (200 nM) for 48 hr then fixed and stained with propidium iodide. Results are shown as mean {plus minus} SEM from a minimum of two independent experiments. B. .MV4;11 cells were treated with DMSO (vehicle), olaparib (2 uM), and/or AZD1775 (200 nM) for 48 hr then fixed and stained with propidium iodide. Representative plots are displayed. C. Jurkat cells were treated with DMSO (vehicle), olaparib (2 uM), and/or AZD1775 (200 nM) for 48 hr then fixed and stained with propidium iodide. Representative plots are displayed.

Published
2023

22. Data from Monocytic Subclones Confer Resistance to Venetoclax-Based Therapy in Patients with Acute Myeloid Leukemia

Author

Craig T. Jordan, Clayton A. Smith, Michael R. Savona, Haley E. Ramsey, Jonathan A. Gutman, Angelo D'Alessandro, Travis Nemkov, John M. Ashton, Jason R. Myers, Andrew Hammes, Diana Abbott, Jeffrey Schowinsky, Jessica Ponder, Nabilah Khan, Biniam Adane, Courtney L. Jones, Anna Krug, Haobin Ye, Amanda Winters, Anagha Inguva, Maria L. Amaya, James C. Costello, Jihye Kim, Ryan M. Sheridan, Austin E. Gillen, Kent A. Riemondy, Rui Fu, Mohammad Minhajuddin, Brett M. Stevens, Annika Gustafson, Daniel A. Pollyea, and Shanshan Pei

Abstract

Venetoclax-based therapy can induce responses in approximately 70% of older previously untreated patients with acute myeloid leukemia (AML). However, up-front resistance as well as relapse following initial response demonstrates the need for a deeper understanding of resistance mechanisms. In the present study, we report that responses to venetoclax +azacitidine in patients with AML correlate closely with developmental stage, where phenotypically primitive AML is sensitive, but monocytic AML is more resistant. Mechanistically, resistant monocytic AML has a distinct transcriptomic profile, loses expression of venetoclax target BCL2, and relies on MCL1 to mediate oxidative phosphorylation and survival. This differential sensitivity drives a selective process in patients which favors the outgrowth of monocytic subpopulations at relapse. Based on these findings, we conclude that resistance to venetoclax + azacitidine can arise due to biological properties intrinsic to monocytic differentiation. We propose that optimal AML therapies should be designed so as to independently target AML subclones that may arise at differing stages of pathogenesis.Significance:Identifying characteristics of patients who respond poorly to venetoclax-based therapy and devising alternative therapeutic strategies for such patients are important topics in AML. We show that venetoclax resistance can arise due to intrinsic molecular/metabolic properties of monocytic AML cells and that such properties can potentially be targeted with alternative strategies.

Published
2023

23. Supplementary Figures S1-S5 from Monocytic Subclones Confer Resistance to Venetoclax-Based Therapy in Patients with Acute Myeloid Leukemia

Author

Craig T. Jordan, Clayton A. Smith, Michael R. Savona, Haley E. Ramsey, Jonathan A. Gutman, Angelo D'Alessandro, Travis Nemkov, John M. Ashton, Jason R. Myers, Andrew Hammes, Diana Abbott, Jeffrey Schowinsky, Jessica Ponder, Nabilah Khan, Biniam Adane, Courtney L. Jones, Anna Krug, Haobin Ye, Amanda Winters, Anagha Inguva, Maria L. Amaya, James C. Costello, Jihye Kim, Ryan M. Sheridan, Austin E. Gillen, Kent A. Riemondy, Rui Fu, Mohammad Minhajuddin, Brett M. Stevens, Annika Gustafson, Daniel A. Pollyea, and Shanshan Pei

Abstract

Supplementary Figures S1-S5 supporting Main Figures 1-5.

Published
2023

25. Supplementary Figure 2 from Selective Activity of the Histone Deacetylase Inhibitor AR-42 against Leukemia Stem Cells: A Novel Potential Strategy in Acute Myelogenous Leukemia

Author

Duane C. Hassane, Gail J. Roboz, Guido Marcucci, Ross L. Levine, Omar Abdel-Wahab, Ulrich Steidl, Michael W. Becker, Craig T. Jordan, Cheryl A. Corbett, Marlene Balys, Krishan K. Sharma, Neng Yang, and Monica L. Guzman

Abstract

PDF - 3889K, AR-42 demonstrates higher activity against a panel of leukemia cell lines in contrast to PTL

Published
2023

27. Data from Selective Activity of the Histone Deacetylase Inhibitor AR-42 against Leukemia Stem Cells: A Novel Potential Strategy in Acute Myelogenous Leukemia

Author

Duane C. Hassane, Gail J. Roboz, Guido Marcucci, Ross L. Levine, Omar Abdel-Wahab, Ulrich Steidl, Michael W. Becker, Craig T. Jordan, Cheryl A. Corbett, Marlene Balys, Krishan K. Sharma, Neng Yang, and Monica L. Guzman

Abstract

Most patients with acute myelogenous leukemia (AML) relapse and die of their disease. Increasing evidence indicates that AML relapse is driven by the inability to eradicate leukemia stem cells (LSC). Thus, it is imperative to identify novel therapies that can ablate LSCs. Using an in silico gene expression–based screen for compounds evoking transcriptional effects similar to the previously described anti-LSC agent parthenolide, we identified AR-42 (OSU-HDAC42), a novel histone deacetylase inhibitor that is structurally similar to phenylbutyrate, but with improved activity at submicromolar concentrations. Here, we report that AR-42 induces NF-κB inhibition, disrupts the ability of Hsp90 to stabilize its oncogenic clients, and causes potent and specific cell death of LSCs but not normal hematopoietic stem and progenitor cells. Unlike parthenolide, the caspase-dependent apoptosis caused by AR-42 occurs without activation of Nrf-2–driven cytoprotective pathways. As AR-42 is already being tested in early clinical trials, we expect that our results can be extended to the clinic. Mol Cancer Ther; 13(8); 1979–90. ©2014 AACR.

Published
2023

30. Supplementary Data from The Hepatic Microenvironment Uniquely Protects Leukemia Cells through Induction of Growth and Survival Pathways Mediated by LIPG

Author

Craig T. Jordan, Angelo D'Alessandro, H. Leighton Grimes, Uwe Christians, Daniel A. Pollyea, Brett M. Stevens, Anagha Inguva, Maria L. Amaya, Björn Schniedewind, Erik De Bloois, Jessica Ponder, Rachel Culp-Hill, Chih-Hsing Chou, Shanshan Pei, Anna Krug, Mohammad Minhajuddin, and Haobin Ye

Abstract

Supplementary figures and information

Published
2023

32. Supplementary Tables S1-S6 from Monocytic Subclones Confer Resistance to Venetoclax-Based Therapy in Patients with Acute Myeloid Leukemia

Author

Craig T. Jordan, Clayton A. Smith, Michael R. Savona, Haley E. Ramsey, Jonathan A. Gutman, Angelo D'Alessandro, Travis Nemkov, John M. Ashton, Jason R. Myers, Andrew Hammes, Diana Abbott, Jeffrey Schowinsky, Jessica Ponder, Nabilah Khan, Biniam Adane, Courtney L. Jones, Anna Krug, Haobin Ye, Amanda Winters, Anagha Inguva, Maria L. Amaya, James C. Costello, Jihye Kim, Ryan M. Sheridan, Austin E. Gillen, Kent A. Riemondy, Rui Fu, Mohammad Minhajuddin, Brett M. Stevens, Annika Gustafson, Daniel A. Pollyea, and Shanshan Pei

Abstract

Supplementary Tables S1-S6 describing patient characteristics, gene lists, LSC signatures, and reagents.

Published
2023

33. Supplementary Figure 1 from Selective Activity of the Histone Deacetylase Inhibitor AR-42 against Leukemia Stem Cells: A Novel Potential Strategy in Acute Myelogenous Leukemia

Author

Duane C. Hassane, Gail J. Roboz, Guido Marcucci, Ross L. Levine, Omar Abdel-Wahab, Ulrich Steidl, Michael W. Becker, Craig T. Jordan, Cheryl A. Corbett, Marlene Balys, Krishan K. Sharma, Neng Yang, and Monica L. Guzman

Abstract

PDF - 3879K, AR-42 gene expression signature displays similarity to PTL and HDAC inhibitors.

Published
2023

34. Data from The Hepatic Microenvironment Uniquely Protects Leukemia Cells through Induction of Growth and Survival Pathways Mediated by LIPG

Author

Craig T. Jordan, Angelo D'Alessandro, H. Leighton Grimes, Uwe Christians, Daniel A. Pollyea, Brett M. Stevens, Anagha Inguva, Maria L. Amaya, Björn Schniedewind, Erik De Bloois, Jessica Ponder, Rachel Culp-Hill, Chih-Hsing Chou, Shanshan Pei, Anna Krug, Mohammad Minhajuddin, and Haobin Ye

Abstract

Due to the disseminated nature of leukemia, malignant cells are exposed to many different tissue microenvironments, including a variety of extramedullary sites. In the present study, we demonstrate that leukemic cells residing in the liver display unique biological properties and also contribute to systemic changes that influence physiologic responses to chemotherapy. Specifically, the liver microenvironment induces metabolic adaptations via upregulating expression of endothelial lipase in leukemia cells, which not only stimulates tumor cell proliferation through polyunsaturated fatty acid–mediated pathways, but also promotes survival by stabilizing antiapoptotic proteins. Additionally, hepatic infiltration and tissue damage caused by malignant cells induces release of liver-derived enzymes capable of degrading chemotherapy drugs, an event that further protects leukemia cells from conventional therapies. Together, these studies demonstrate a unique role for liver in modulating the pathogenesis of leukemic disease and suggest that the hepatic microenvironment may protect leukemia cells from chemotherapeutic challenge.Significance:The studies presented herein demonstrate that the liver provides a microenvironment in which leukemia cells acquire unique metabolic properties. The adaptations that occur in the liver confer increased resistance to chemotherapy. Therefore, we propose that therapies designed to overcome liver-specific metabolic changes will yield improved outcomes for patients with leukemia.This article is highlighted in the In This Issue feature, p. 211

Published
2023

35. Supplementary Table 2 from Selective Activity of the Histone Deacetylase Inhibitor AR-42 against Leukemia Stem Cells: A Novel Potential Strategy in Acute Myelogenous Leukemia

Author

Duane C. Hassane, Gail J. Roboz, Guido Marcucci, Ross L. Levine, Omar Abdel-Wahab, Ulrich Steidl, Michael W. Becker, Craig T. Jordan, Cheryl A. Corbett, Marlene Balys, Krishan K. Sharma, Neng Yang, and Monica L. Guzman

Abstract

PDF - 77K, DAVID pathway analysis for downregulated genes (KEGG pathways).

Published
2023

36. Supplementary Figure 4 from Selective Activity of the Histone Deacetylase Inhibitor AR-42 against Leukemia Stem Cells: A Novel Potential Strategy in Acute Myelogenous Leukemia

Author

Duane C. Hassane, Gail J. Roboz, Guido Marcucci, Ross L. Levine, Omar Abdel-Wahab, Ulrich Steidl, Michael W. Becker, Craig T. Jordan, Cheryl A. Corbett, Marlene Balys, Krishan K. Sharma, Neng Yang, and Monica L. Guzman

Abstract

PDF - 107K, AR-42, unlike PTL, does not upregulate HMOX-1 as a consequence of ROS induction.

Published
2023

38. 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

39. Data from Exploiting Protein Translation Dependence in Multiple Myeloma with Omacetaxine-Based Therapy

Author

Daniel W. Sherbenou, Peter A. Forsberg, Tomer M. Mark, Craig T. Jordan, Clayton A. Smith, Andrew Hammes, Shelby C. Bearrows, Denis Ohlstrom, Michael J. VanWyngarden, Brett M. Stevens, Lorraine N. Davis, Beau M. Idler, and Zachary J. Walker

Abstract

Purpose:The prognosis of patients with multiple myeloma who are resistant to proteasome inhibitors, immunomodulatory drugs (IMiD), and daratumumab is extremely poor. Even B-cell maturation antigen–specific chimeric antigen receptor T-cell therapies provide only a temporary benefit before patients succumb to their disease. In this article, we interrogate the unique sensitivity of multiple myeloma cells to the alternative strategy of blocking protein translation with omacetaxine.Experimental Design:We determined protein translation levels (n = 17) and sensitivity to omacetaxine (n = 51) of primary multiple myeloma patient samples. Synergy was evaluated between omacetaxine and IMiDs in vitro, ex vivo, and in vivo. Underlying mechanism was investigated via proteomic analysis.Results:Almost universally, primary patient multiple myeloma cells exhibit >2.5-fold increased rates of protein translation compared with normal marrow cells. Ex vivo treatment with omacetaxine resulted in >50% reduction in viable multiple myeloma cells. In this cohort, high levels of translation serve as a biomarker for patient multiple myeloma cell sensitivity to omacetaxine. Unexpectedly, omacetaxine demonstrated synergy with IMiDs in multiple myeloma cell lines in vitro. In addition, in an IMiD-resistant relapsed patient sample, omacetaxine/IMiD combination treatment resensitized the multiple myeloma cells to the IMiD. Proteomic analysis found that the omacetaxine/IMiD combination treatment produced a double-hit on the IRF4/c-MYC pathway, which is critical to multiple myeloma survival.Conclusions:Overall, protein translation inhibitors represent a potential new drug class for myeloma treatment and provide a rationale for conducting clinical trials with omacetaxine alone and in combination with IMiDs for patients with relapsed/refractory multiple myeloma.

Published
2023

40. Data from Targeting Glutamine Metabolism and Redox State for Leukemia Therapy

Author

James DeGregori, Angelo D’Alessandro, Kirk C. Hansen, Craig T. Jordan, Biniam Adane, Sarah Gehrke, Vadym Zaberezhnyy, Hae J. Park, Travis Nemkov, and Mark A. Gregory

Abstract

Purpose:Acute myeloid leukemia (AML) is a hematologic malignancy characterized by the accumulation of immature myeloid precursor cells. AML is poorly responsive to conventional chemotherapy and a diagnosis of AML is usually fatal. More effective and less toxic forms of therapy are desperately needed. AML cells are known to be highly dependent on the amino acid glutamine for their survival. These studies were directed at determining the effects of glutaminase inhibition on metabolism in AML and identifying general weaknesses that can be exploited therapeutically.Experimental Design:AML cancer cell lines, primary AML cells, and mouse models of AML and acute lymphoblastic leukemia (ALL) were utilized.Results:We show that blocking glutamine metabolism through the use of a glutaminase inhibitor (CB-839) significantly impairs antioxidant glutathione production in multiple types of AML, resulting in accretion of mitochondrial reactive oxygen species (mitoROS) and apoptotic cell death. Moreover, glutaminase inhibition makes AML cells susceptible to adjuvant drugs that further perturb mitochondrial redox state, such as arsenic trioxide (ATO) and homoharringtonine (HHT). Indeed, the combination of ATO or HHT with CB-839 exacerbates mitoROS and apoptosis, and leads to more complete cell death in AML cell lines, primary AML patient samples, and in vivo using mouse models of AML. In addition, these redox-targeted combination therapies are effective in eradicating ALL cells in vitro and in vivo.Conclusions:Targeting glutamine metabolism in combination with drugs that perturb mitochondrial redox state represents an effective and potentially widely applicable therapeutic strategy for treating multiple types of leukemia.

Published
2023

41. 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

42. 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

43. Supplementary Data from Targeting Glutamine Metabolism and Redox State for Leukemia Therapy

Author

James DeGregori, Angelo D’Alessandro, Kirk C. Hansen, Craig T. Jordan, Biniam Adane, Sarah Gehrke, Vadym Zaberezhnyy, Hae J. Park, Travis Nemkov, and Mark A. Gregory

Abstract

Figure S1. The glutaminase inhibitor CB-839 impairs glutathione metabolism in FLT3WT AML cells. Figure S2. The glutaminase inhibitor CB-839 decreases glutathione levels, but does not increase total cellular ROS levels in AML cells. Figure S3. Antioxidant vitamin E suppresses mitoROS and apoptosis induced by CB-839/pro-oxidant combination therapies. Figure S4. CB-839 cooperates with the pro-oxidant drug ATO in inducing apoptosis, mitoROS and AML cell death. Figure S5. CB-839/HHT therapy induces total cellular ROS. AML cells that survive therapy are metabolically similar to drug naive cells and are not resistant to subsequent therapy. Figure S6. CB-839/ATO and CB-839/HHT combination therapies do not exhibit toxicity in vivo in mice or toward normal human CD34+ cells. Figure S7. CB-839 cooperates with HHT in inducing mitoROS and apoptosis in primary human AML cells and cell death/apoptosis in ALL cells. Table S1. Combination index (CI values) for drug combinations tested in cell viability assays. Table S2. The clinical characteristics of the AML cohort studied are summarized.

Published
2023

44. 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

45. Supplementary Methods, Figures 1 - 8 from Selenium Suppresses Leukemia through the Action of Endogenous Eicosanoids

Author

K. Sandeep Prabhu, Robert F. Paulson, Craig T. Jordan, Mary J. Kennett, Avinash K. Kudva, Emily R. Finch, Shailaja Hegde, Naveen Kaushal, and Ujjawal H. Gandhi

Abstract

PDF file - 772KB, Supplementary Figure 1. Selenium supplementation abrogates leukemia in a Friend leukemia (FVP) model. Supplementary Figure 2. Effect of selenium supplementation on the splenic histopathology in FVP-infected mice. Supplementary Figure 3. Selenium supplementation increases apoptosis in the spleen of FVP infected mice.Supplementary Figure 4. Essential role of the COX/eicosanoid pathway in the ablation of LSCs in FVP-infected Se-S mice. Supplementary Figure 5. Modulation of expression of NADPH oxidases (A) and Gpx4 (B) by selenium-treatment of BCR-ABL+LSCs. Supplementary Figure 6. Expression of Tp53, Cat and Sod2 in the spleen of FVP-infected mice. Supplementary Figure 7. Activation of p53 in FVP-infected Se-S and MSA mice. Supplementary Figure 8. Selenium-dependent expression of selenoproteins and CyPG synthesis machinery and endogenous production of 12-PGJ2 by LC-MS/MS in BCRABL+ LSCs.

Published
2023

46. Venetoclax and azacitidine compared with induction chemotherapy for newly diagnosed patients with acute myeloid leukemia

Author

Diana Abbott, Clayton A. Smith, Julie Rosser, Mohd Minhajuddin, Maria L. Amaya, Jeffrey Schowinsky, Daniel A. Pollyea, Anagha Inguva, Craig T. Jordan, Amanda Winters, Christine McMahon, Jonathan A. Gutman, Audrey Sato, Evan Cherry, Marc Schwartz, Shanshan Pei, and Brett M. Stevens

Subjects
Oncology, Adult, Male, medicine.medical_specialty, Clinical Trials and Observations, Azacitidine, chemistry.chemical_compound, Young Adult, Internal medicine, hemic and lymphatic diseases, Antineoplastic Combined Chemotherapy Protocols, medicine, Humans, neoplasms, Aged, Retrospective Studies, Response rate (survey), Aged, 80 and over, Sulfonamides, Venetoclax, business.industry, Induction chemotherapy, Myeloid leukemia, Hematology, Induction Chemotherapy, Middle Aged, Bridged Bicyclo Compounds, Heterocyclic, Transplantation, stomatognathic diseases, Leukemia, Myeloid, Acute, chemistry, Ven, Cohort, Female, business, medicine.drug
Abstract

Key Points Patients with AML who received IC were compared with those who received ven to investigate predictors of outcomes.Presence of RUNX1 mutations is associated with better outcomes for ven/aza compared with IC., Visual Abstract, Venetoclax (ven) plus azacitidine (aza) is the standard of care for patients with newly diagnosed acute myeloid leukemia (AML) who are not candidates for intensive chemotherapy (IC). Some patients who are IC candidates instead receive ven/aza. We retrospectively analyzed patients with newly diagnosed AML who received ven/aza (n = 143) or IC (n = 149) to compare outcomes, seek variables that could predict response to 1 therapy or the other, and ascertain whether treatment recommendations could be refined. The response rates were 76.9% for ven/aza and 70.5% for IC. The median overall survival (OS) was 884 days for IC compared with 483 days for ven/aza (P = .0020). A propensity-matched cohort was used to compare outcomes in the setting of equivalent baseline variables, and when matched for age, biological risk, and transplantation, the median OS was 705 days for IC compared with not reached for ven/aza (P = .0667). Variables that favored response to ven/aza over IC included older age, secondary AML, and RUNX1 mutations. AML M5 favored response to IC over ven/aza. In the propensity-matched cohort analyzing OS, older age, adverse risk, and RUNX1 mutations favored ven/aza over IC, whereas intermediate risk favored IC over ven/aza. In conclusion, patients receiving IC have improved OS compared with those receiving ven/aza. However, in a propensity-matched cohort of patients with equivalent baseline factors, there was a trend toward favorable OS for ven/aza. Specific variables, such as RUNX1 mutations, reported here for the first time, can be identified that favor ven/aza or IC, helping to guide treatment decisions for patients who may be eligible candidates for either therapy.

Published
2021

47. Targeted therapy for a subset of acute myeloid leukemias that lack expression of aldehyde dehydrogenase 1A1

Author

Maura Gasparetto, Shanshan Pei, Mohammad Minhajuddin, Nabilah Khan, Daniel A. Pollyea, Jason R. Myers, John M. Ashton, Michael W. Becker, Vasilis Vasiliou, Keith R. Humphries, Craig T. Jordan, and Clayton A. Smith

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Aldehyde dehydrogenase 1A1 (ALDH1A1) activity is high in hematopoietic stem cells and functions in part to protect stem cells from reactive aldehydes and other toxic compounds. In contrast, we found that approximately 25% of all acute myeloid leukemias expressed low or undetectable levels of ALDH1A1 and that this ALDH1A1− subset of leukemias correlates with good prognosis cytogenetics. ALDH1A1− cell lines as well as primary leukemia cells were found to be sensitive to treatment with compounds that directly and indirectly generate toxic ALDH substrates including 4-hydroxynonenal and the clinically relevant compounds arsenic trioxide and 4-hydroperoxycyclophosphamide. In contrast, normal hematopoietic stem cells were relatively resistant to these compounds. Using a murine xenotransplant model to emulate a clinical treatment strategy, established ALDH1A1− leukemias were also sensitive to in vivo treatment with cyclophosphamide combined with arsenic trioxide. These results demonstrate that targeting ALDH1A1− leukemic cells with toxic ALDH1A1 substrates such as arsenic and cyclophosphamide may be a novel targeted therapeutic strategy for this subset of acute myeloid leukemias.

Published
2017
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49. Comprehensive Structure–Activity Profiling of Micheliolide and its Targeted Proteome in Leukemia Cells via Probe-Guided Late-Stage C–H Functionalization

Author

Michele Crotti, Simone Giovani, Hanan Alwaseem, Rudi Fasan, Sina Ghaemmaghami, Craig T. Jordan, and Kevin A. Welle

Subjects
Natural product, 010405 organic chemistry, Chemistry, General Chemical Engineering, Biological activity, General Chemistry, Computational biology, 010402 general chemistry, Proteomics, medicine.disease_cause, medicine.disease, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Leukemia, Mechanism of action, Proteome, Protein targeting, medicine, medicine.symptom, Stem cell, QD1-999, Research Article
Abstract

The plant-derived sesquiterpene lactone micheliolide was recently found to possess promising antileukemic activity, including the ability to target and kill leukemia stem cells. Efforts toward improving the biological activity of micheliolide and investigating its mechanism of action have been hindered by the paucity of preexisting functional groups amenable for late-stage derivatization of this molecule. Here, we report the implementation of a probe-based P450 fingerprinting strategy to rapidly evolve engineered P450 catalysts useful for the regio- and stereoselective hydroxylation of micheliolide at two previously inaccessible aliphatic positions in this complex natural product. Via P450-mediated chemoenzymatic synthesis, a broad panel of novel micheliolide analogs could thus be obtained to gain structure–activity insights into the effect of C2, C4, and C14 substitutions on the antileukemic activity of micheliolide, ultimately leading to the discovery of “micheliologs” with improved potency against acute myelogenic leukemia cells. These late-stage C–H functionalization routes could be further leveraged to generate a panel of affinity probes for conducting a comprehensive analysis of the protein targeting profile of micheliolide in leukemia cells via chemical proteomics analyses. These studies introduce new micheliolide-based antileukemic agents and shed new light onto the biomolecular targets and mechanism of action of micheliolide in leukemia cells. More broadly, this work showcases the value of the present P450-mediated C–H functionalization strategy for streamlining the late-stage diversification and elucidation of the biomolecular targets of a complex bioactive molecule., A P450-based chemoenzymatic C−H functionalization strategy was applied to discover improved analogs of the anticancer terpene micheliolide and to profile its target proteome in leukemia stem cells.

Published
2021

50. The Intriguing Clinical Success of BCL-2 Inhibition in Acute Myeloid Leukemia

Author

Brett M. Stevens, Daniel A. Pollyea, Clayton A. Smith, Shanshan Pei, and Craig T. Jordan

Subjects
0301 basic medicine, Cancer Research, business.industry, Myeloid leukemia, Cell Biology, medicine.disease, Clinical success, 03 medical and health sciences, Leukemia, 030104 developmental biology, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Cancer research, Medicine, business
Abstract

Over the past several decades numerous preclinical and clinical studies have pursued new approaches for the treatment of acute myeloid leukemia (AML). While some degree of clinical response has been demonstrated for many therapies, for the most part, fundamental changes in the treatment landscape have been lacking. Recently, the use of the BCL-2 inhibitor venetoclax has emerged as a potent therapy for a majority of newly diagnosed AML patients. Venetoclax regimens have shown broad response rates with deep and durable remissions, with a superior toxicity profile compared with traditional intensive chemotherapy agents. Numerous ongoing studies are now using venetoclax in combination with a wide range of other agents as investigators seek even more effective and well-tolerated regimens. Notably, however, while the empirical results of BCL-2 inhibition are encouraging, the mechanisms that have led to these successful clinical outcomes remain unclear. Intriguingly, the activity of venetoclax in AML patients appears to go beyond simply modulating canonical antiapoptosis mechanisms; in addition, the efficacy of venetoclax is linked to its combined use with conventional low-intensity backbone therapies. This article will evaluate the state of the field, provide a summary of key considerations, and propose directions for future studies.

Published
2021

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