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51. Supplementary Figure 5 from The TP53 Apoptotic Network Is a Primary Mediator of Resistance to BCL2 Inhibition in AML Cells

Author

Jeffrey W. Tyner, Shannon K McWeeney, Bill H. Chang, Brian J. Druker, Alexey V. Danilov, Cristina E. Tognon, Mara Rosenberg, Sunil K. Joshi, Amanda d'Almeida, Rachel Culp-Hill, Angelo D'Alessandro, Courtney L. Jones, Tingting Liu, Olga Nikolova, Stephen E. Kurtz, and Tamilla Nechiporuk

Abstract

Entrectinib arrests cells with loss-of-function alleles for TP53 in G1

Published
2023
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52. Data from Serine-Threonine Kinase TAO3-Mediated Trafficking of Endosomes Containing the Invadopodia Scaffold TKS5α Promotes Cancer Invasion and Tumor Growth

Author

Sara A. Courtneidge, Anthony B. Pinkerton, Christian A. Hassig, Shannon K. McWeeney, George V. Thomas, Ian Pass, Fu-Yue Zeng, Eduard Sergienko, Chen-Ting Ma, Matthew M. Abelman, Robert J. Ardecky, Kyle P. Gribbin, Jose C. Navarro, Manuela Quintavalle, and Shinji Iizuka

Abstract

Invadopodia are actin-based proteolytic membrane protrusions required for invasive behavior and tumor growth. In this study, we used our high-content screening assay to identify kinases whose activity affects invadopodia formation. Among the top hits selected for further analysis was TAO3, an STE20-like kinase of the GCK subfamily. TAO3 was overexpressed in many human cancers and regulated invadopodia formation in melanoma, breast, and bladder cancers. Furthermore, TAO3 catalytic activity facilitated melanoma growth in three-dimensional matrices and in vivo. A novel, potent catalytic inhibitor of TAO3 was developed that inhibited invadopodia formation and function as well as tumor cell extravasation and growth. Treatment with this inhibitor demonstrated that TAO3 activity is required for endosomal trafficking of TKS5α, an obligate invadopodia scaffold protein. A phosphoproteomics screen for TAO3 substrates revealed the dynein subunit protein LIC2 as a relevant substrate. Knockdown of LIC2 or expression of a phosphomimetic form promoted invadopodia formation. Thus, TAO3 is a new therapeutic target with a distinct mechanism of action.Significance:An unbiased screening approach identifies TAO3 as a regulator of invadopodia formation and function, supporting clinical development of this class of target.

Published
2023
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53. Supplementary movie 2 from Serine-Threonine Kinase TAO3-Mediated Trafficking of Endosomes Containing the Invadopodia Scaffold TKS5α Promotes Cancer Invasion and Tumor Growth

Author

Sara A. Courtneidge, Anthony B. Pinkerton, Christian A. Hassig, Shannon K. McWeeney, George V. Thomas, Ian Pass, Fu-Yue Zeng, Eduard Sergienko, Chen-Ting Ma, Matthew M. Abelman, Robert J. Ardecky, Kyle P. Gribbin, Jose C. Navarro, Manuela Quintavalle, and Shinji Iizuka

Abstract

Effect of SBI-581 on TKS5alpha vesicle trafficking

Published
2023
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54. Data from Unpaired Extracellular Cysteine Mutations of CSF3R Mediate Gain or Loss of Function

Author

Jeffrey W. Tyner, Oliver Hantschel, Tim Kükenshöner, Shannon K. McWeeney, Beth Wilmot, Daniel Bottomly, Bruno C. Medeiros, Kevin Watanabe-Smith, Anna Reister Schultz, Sophie Means, and Haijiao Zhang

Abstract

Exclusive of membrane-proximal mutations seen commonly in chronic neutrophilic leukemia (e.g., T618I), functionally defective mutations in the extracellular domain of the G-CSF receptor (CSF3R) have been reported only in severe congenital and idiopathic neutropenia patients. Here, we describe the first activating mutation in the fibronectin-like type III domain of the extracellular region of CSF3R (W341C) in a leukemia patient. This mutation transformed cells via cysteine-mediated intermolecular disulfide bonds, leading to receptor dimerization. Interestingly, a CSF3R cytoplasmic truncation mutation (W791X) found on the same allele as the extracellular mutation and the expansion of the compound mutation was associated with increased leukocytosis and disease progression of the patient. Notably, the primary patient sample and cells transformed by W341C and W341C/W791X exhibited sensitivity to JAK inhibitors. We further showed that disruption of original cysteine pairs in the CSF3R extracellular domain resulted in either gain- or loss-of-function changes, part of which was attributable to cysteine-mediated dimer formation. This, therefore, represents the first characterization of unpaired cysteines that mediate both gain- and loss-of-function phenotypes. Overall, our results show the structural and functional importance of conserved extracellular cysteine pairs in CSF3R and suggest the necessity for broader screening of CSF3R extracellular domain in leukemia patients. Cancer Res; 77(16); 4258–67. ©2017 AACR.

Published
2023
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55. Data from AZD4320, A Dual Inhibitor of Bcl-2 and Bcl-xL, Induces Tumor Regression in Hematologic Cancer Models without Dose-limiting Thrombocytopenia

Author

Francis D. Gibbons, Stephen E. Fawell, Barry R. Davies, J. Paul Secrist, Michael Zinda, Martin Wild, Eric Gangl, Ricky W. Johnstone, Andrea Newbold, Gareth P. Gregory, Elizabeth A. Coker, Patricia Jaaks, Mathew J. Garnett, Alwin Schuller, Nancy Su, Omid Tavana, Areya Tabatabai, Jamal C. Saeh, William McCoull, Edward J. Hennessy, Stephanos Ioannidis, Thomas Gero, R. Bruce Diebold, Jeffrey Varnes, Shannon K. McWeeney, Stephen E. Kurtz, Jeffrey W. Tyner, Tristan Lubinski, Kathleen Burke, Deborah Lawson, Shenghua Wen, Terry Macintyre, Paula Lewis, Ammar Adam, Justin Cidado, Kate F. Byth, Steven W. Criscione, and Srividya B. Balachander

Abstract

Purpose:Targeting Bcl-2 family members upregulated in multiple cancers has emerged as an important area of cancer therapeutics. While venetoclax, a Bcl-2–selective inhibitor, has had success in the clinic, another family member, Bcl-xL, has also emerged as an important target and as a mechanism of resistance. Therefore, we developed a dual Bcl-2/Bcl-xL inhibitor that broadens the therapeutic activity while minimizing Bcl-xL–mediated thrombocytopenia.Experimental Design:We used structure-based chemistry to design a small-molecule inhibitor of Bcl-2 and Bcl-xL and assessed the activity against in vitro cell lines, patient samples, and in vivo models. We applied pharmacokinetic/pharmacodynamic (PK/PD) modeling to integrate our understanding of on-target activity of the dual inhibitor in tumors and platelets across dose levels and over time.Results:We discovered AZD4320, which has nanomolar affinity for Bcl-2 and Bcl-xL, and mechanistically drives cell death through the mitochondrial apoptotic pathway. AZD4320 demonstrates activity in both Bcl-2– and Bcl-xL–dependent hematologic cancer cell lines and enhanced activity in acute myeloid leukemia (AML) patient samples compared with the Bcl-2–selective agent venetoclax. A single intravenous bolus dose of AZD4320 induces tumor regression with transient thrombocytopenia, which recovers in less than a week, suggesting a clinical weekly schedule would enable targeting of Bcl-2/Bcl-xL–dependent tumors without incurring dose-limiting thrombocytopenia. AZD4320 demonstrates monotherapy activity in patient-derived AML and venetoclax-resistant xenograft models.Conclusions:AZD4320 is a potent molecule with manageable thrombocytopenia risk to explore the utility of a dual Bcl-2/Bcl-xL inhibitor across a broad range of tumor types with dysregulation of Bcl-2 prosurvival proteins.

Published
2023
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56. Supplementary table 1_Somatic mutations identified by exome sequencing from Unpaired Extracellular Cysteine Mutations of CSF3R Mediate Gain or Loss of Function

Author

Jeffrey W. Tyner, Oliver Hantschel, Tim Kükenshöner, Shannon K. McWeeney, Beth Wilmot, Daniel Bottomly, Bruno C. Medeiros, Kevin Watanabe-Smith, Anna Reister Schultz, Sophie Means, and Haijiao Zhang

Abstract

This file contains a table listing somatic mutations identified by Exome sequencing in the index patient

Published
2023
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57. Figure S6 from AZD4320, A Dual Inhibitor of Bcl-2 and Bcl-xL, Induces Tumor Regression in Hematologic Cancer Models without Dose-limiting Thrombocytopenia

Author

Francis D. Gibbons, Stephen E. Fawell, Barry R. Davies, J. Paul Secrist, Michael Zinda, Martin Wild, Eric Gangl, Ricky W. Johnstone, Andrea Newbold, Gareth P. Gregory, Elizabeth A. Coker, Patricia Jaaks, Mathew J. Garnett, Alwin Schuller, Nancy Su, Omid Tavana, Areya Tabatabai, Jamal C. Saeh, William McCoull, Edward J. Hennessy, Stephanos Ioannidis, Thomas Gero, R. Bruce Diebold, Jeffrey Varnes, Shannon K. McWeeney, Stephen E. Kurtz, Jeffrey W. Tyner, Tristan Lubinski, Kathleen Burke, Deborah Lawson, Shenghua Wen, Terry Macintyre, Paula Lewis, Ammar Adam, Justin Cidado, Kate F. Byth, Steven W. Criscione, and Srividya B. Balachander

Abstract

Figure S6

Published
2023
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58. Supplementary methods and figures from Unpaired Extracellular Cysteine Mutations of CSF3R Mediate Gain or Loss of Function

Author

Jeffrey W. Tyner, Oliver Hantschel, Tim Kükenshöner, Shannon K. McWeeney, Beth Wilmot, Daniel Bottomly, Bruno C. Medeiros, Kevin Watanabe-Smith, Anna Reister Schultz, Sophie Means, and Haijiao Zhang

Abstract

This file contains additional data such as detailed sequencing methods; Sanger sequencing result; receptor expression and function of R308 and double cysteine mutations.

Published
2023
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59. Supplementary Data_Clean from AZD4320, A Dual Inhibitor of Bcl-2 and Bcl-xL, Induces Tumor Regression in Hematologic Cancer Models without Dose-limiting Thrombocytopenia

Author

Francis D. Gibbons, Stephen E. Fawell, Barry R. Davies, J. Paul Secrist, Michael Zinda, Martin Wild, Eric Gangl, Ricky W. Johnstone, Andrea Newbold, Gareth P. Gregory, Elizabeth A. Coker, Patricia Jaaks, Mathew J. Garnett, Alwin Schuller, Nancy Su, Omid Tavana, Areya Tabatabai, Jamal C. Saeh, William McCoull, Edward J. Hennessy, Stephanos Ioannidis, Thomas Gero, R. Bruce Diebold, Jeffrey Varnes, Shannon K. McWeeney, Stephen E. Kurtz, Jeffrey W. Tyner, Tristan Lubinski, Kathleen Burke, Deborah Lawson, Shenghua Wen, Terry Macintyre, Paula Lewis, Ammar Adam, Justin Cidado, Kate F. Byth, Steven W. Criscione, and Srividya B. Balachander

Abstract

contains methods.

Published
2023
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60. Supplementary movie 3 from Serine-Threonine Kinase TAO3-Mediated Trafficking of Endosomes Containing the Invadopodia Scaffold TKS5α Promotes Cancer Invasion and Tumor Growth

Author

Sara A. Courtneidge, Anthony B. Pinkerton, Christian A. Hassig, Shannon K. McWeeney, George V. Thomas, Ian Pass, Fu-Yue Zeng, Eduard Sergienko, Chen-Ting Ma, Matthew M. Abelman, Robert J. Ardecky, Kyle P. Gribbin, Jose C. Navarro, Manuela Quintavalle, and Shinji Iizuka

Abstract

Effect of SBI-581 on Rab11 vesicle trafficking

Published
2023
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61. Supplementary Data from Serine-Threonine Kinase TAO3-Mediated Trafficking of Endosomes Containing the Invadopodia Scaffold TKS5α Promotes Cancer Invasion and Tumor Growth

Author

Sara A. Courtneidge, Anthony B. Pinkerton, Christian A. Hassig, Shannon K. McWeeney, George V. Thomas, Ian Pass, Fu-Yue Zeng, Eduard Sergienko, Chen-Ting Ma, Matthew M. Abelman, Robert J. Ardecky, Kyle P. Gribbin, Jose C. Navarro, Manuela Quintavalle, and Shinji Iizuka

Abstract

Includes Sup. Figures 1-7, Tables 1-6 and Methods.

Published
2023
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62. Supplementary movie 4 from Serine-Threonine Kinase TAO3-Mediated Trafficking of Endosomes Containing the Invadopodia Scaffold TKS5α Promotes Cancer Invasion and Tumor Growth

Author

Sara A. Courtneidge, Anthony B. Pinkerton, Christian A. Hassig, Shannon K. McWeeney, George V. Thomas, Ian Pass, Fu-Yue Zeng, Eduard Sergienko, Chen-Ting Ma, Matthew M. Abelman, Robert J. Ardecky, Kyle P. Gribbin, Jose C. Navarro, Manuela Quintavalle, and Shinji Iizuka

Abstract

Effect of SU11333 on TKS5alpha vesicle trafficking

Published
2023
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64. Supplementary movie 1 from Serine-Threonine Kinase TAO3-Mediated Trafficking of Endosomes Containing the Invadopodia Scaffold TKS5α Promotes Cancer Invasion and Tumor Growth

Author

Sara A. Courtneidge, Anthony B. Pinkerton, Christian A. Hassig, Shannon K. McWeeney, George V. Thomas, Ian Pass, Fu-Yue Zeng, Eduard Sergienko, Chen-Ting Ma, Matthew M. Abelman, Robert J. Ardecky, Kyle P. Gribbin, Jose C. Navarro, Manuela Quintavalle, and Shinji Iizuka

Abstract

Trafficking of TKS5alpha vesicles

Published
2023
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65. Data from Lentiviral-Driven Discovery of Cancer Drug Resistance Mutations

Author

Ralf Kittler, John D. Minna, Brian J. Druker, Kenneth D. Westover, Yan Liu, Shannon K. McWeeney, Daniel Bottomly, Christopher A. Eide, Michael Peyton, Kimberley Avila, Rahul K. Kollipara, and Paul Yenerall

Abstract

Identifying resistance mutations in a drug target provides crucial information. Lentiviral transduction creates multiple types of mutations due to the error-prone nature of the HIV-1 reverse transcriptase (RT). Here we optimized and leveraged this property to identify drug resistance mutations, developing a technique we term LentiMutate. This technique was validated by identifying clinically relevant EGFR resistance mutations, then applied to two additional clinical anticancer drugs: imatinib, a BCR-ABL inhibitor, and AMG 510, a KRAS G12C inhibitor. Novel deletions in BCR-ABL1 conferred resistance to imatinib. In KRAS-G12C or wild-type KRAS, point mutations in the AMG 510 binding pocket or oncogenic non-G12C mutations conferred resistance to AMG 510. LentiMutate should prove highly valuable for clinical and preclinical cancer-drug development.Significance:LentiMutate can evaluate a drug's on-target activity and can nominate resistance mutations before they occur in patients, which could accelerate and refine drug development to increase the survival of patients with cancer.

Published
2023
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66. Data from Cancer Stem Cell Tumor Model Reveals Invasive Morphology and Increased Phenotypical Heterogeneity

Author

Louis Vermeulen, Peter M.A. Sloot, Jan Paul Medema, Lev Naumov, Shannon K. McWeeney, Tijana Borovski, Joost J.C. Verhoeff, and Andrea Sottoriva

Abstract

The recently developed concept of cancer stem cells (CSC) sheds new light on various aspects of tumor growth and progression. Here, we present a mathematical model of malignancies to investigate how a hierarchical organized cancer cell population affects the fundamental properties of solid malignancies. We establish that tumors modeled in a CSC context more faithfully resemble human malignancies and show invasive behavior, whereas tumors without a CSC hierarchy do not. These findings are corroborated by in vitro studies. In addition, we provide evidence that the CSC model is accompanied by highly altered evolutionary dynamics compared with the ones predicted to exist in a stochastic, nonhierarchical tumor model. Our main findings indicate that the CSC model allows for significantly higher tumor heterogeneity, which may affect therapy resistance. Moreover, we show that therapy which fails to target the CSC population is not only unsuccessful in curing the patient, but also promotes malignant features in the recurring tumor. These include rapid expansion, increased invasion, and enhanced heterogeneity. Cancer Res; 70(1); 46–56

Published
2023
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69. Supplementary Materials and Methods, Figures 1-8, Tables 1-3, Movie Legends 1-6 from Cancer Stem Cell Tumor Model Reveals Invasive Morphology and Increased Phenotypical Heterogeneity

Author

Louis Vermeulen, Peter M.A. Sloot, Jan Paul Medema, Lev Naumov, Shannon K. McWeeney, Tijana Borovski, Joost J.C. Verhoeff, and Andrea Sottoriva

Abstract

Supplementary Materials and Methods, Figures 1-8, Tables 1-3, Movie Legends 1-6 from Cancer Stem Cell Tumor Model Reveals Invasive Morphology and Increased Phenotypical Heterogeneity

Published
2023
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70. Data from Identification and Characterization of Tyrosine Kinase Nonreceptor 2 Mutations in Leukemia through Integration of Kinase Inhibitor Screening and Genomic Analysis

Author

Jeffrey W. Tyner, Brian J. Druker, Nathanael S. Gray, Richard E. Middleton, Oliver Hantschel, Jerald Radich, Shannon K. McWeeney, Beth Wilmot, Daniel Bottomly, Seamus B. Hughes, Julie Gorenstein, Huahang Sun, Samuel B. Luty, Sina Reckel, Xianming Deng, Jinhua Wang, Melissa L. Abel, and Julia E. Maxson

Abstract

The amount of genomic information about leukemia cells currently far exceeds our overall understanding of the precise genetic events that ultimately drive disease development and progression. Effective implementation of personalized medicine will require tools to distinguish actionable genetic alterations within the complex genetic landscape of leukemia. In this study, we performed kinase inhibitor screens to predict functional gene targets in primary specimens from patients with acute myeloid leukemia and chronic myelomonocytic leukemia. Deep sequencing of the same patient specimens identified genetic alterations that were then integrated with the functionally important targets using the HitWalker algorithm to prioritize the mutant genes that most likely explain the observed drug sensitivity patterns. Through this process, we identified tyrosine kinase nonreceptor 2 (TNK2) point mutations that exhibited oncogenic capacity. Importantly, the integration of functional and genomic data using HitWalker allowed for prioritization of rare oncogenic mutations that may have been missed through genomic analysis alone. These mutations were sensitive to the multikinase inhibitor dasatinib, which antagonizes TNK2 kinase activity, as well as novel TNK2 inhibitors, XMD8-87 and XMD16-5, with greater target specificity. We also identified activating truncation mutations in other tumor types that were sensitive to XMD8-87 and XMD16-5, exemplifying the potential utility of these compounds across tumor types dependent on TNK2. Collectively, our findings highlight a more sensitive approach for identifying actionable genomic lesions that may be infrequently mutated or overlooked and provide a new method for the prioritization of candidate genetic mutations. Cancer Res; 76(1); 127–38. ©2015 AACR.

Published
2023
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71. Table S8 from Lentiviral-Driven Discovery of Cancer Drug Resistance Mutations

Author

Ralf Kittler, John D. Minna, Brian J. Druker, Kenneth D. Westover, Yan Liu, Shannon K. McWeeney, Daniel Bottomly, Christopher A. Eide, Michael Peyton, Kimberley Avila, Rahul K. Kollipara, and Paul Yenerall

Abstract

Results of LentiMutate on KRAS-G12C cDNA and AMG 510 in the H358 cell line. Values shown are the averages of two biological replicates. The fold enrichment of "All nucleotides" is the sum of substitution rates for all nucleotides in the with doxycycline replicates divided by the sum of substitution rates for all nucleotides without doxycycline (parental) at one nucleotide position. Nucleotide w/ max error refers to the highest substitution rate for a single nucleotide at one nucleotide position.

Published
2023
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72. Figure S1 from Lentiviral-Driven Discovery of Cancer Drug Resistance Mutations

Author

Ralf Kittler, John D. Minna, Brian J. Druker, Kenneth D. Westover, Yan Liu, Shannon K. McWeeney, Daniel Bottomly, Christopher A. Eide, Michael Peyton, Kimberley Avila, Rahul K. Kollipara, and Paul Yenerall

Abstract

Expression of RUVBL1 variants identified by LentiMutate confer resistance to compound B Individual cDNAs were expressed in the H1993 (left) or H2009 (right) cell lines under a doxycycline-inducible promoter. Values shown are averages of two biological replicates {plus minus} the standard deviation.

Published
2023
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76. Supplemental Table S1 from Identification and Characterization of Tyrosine Kinase Nonreceptor 2 Mutations in Leukemia through Integration of Kinase Inhibitor Screening and Genomic Analysis

Author

Jeffrey W. Tyner, Brian J. Druker, Nathanael S. Gray, Richard E. Middleton, Oliver Hantschel, Jerald Radich, Shannon K. McWeeney, Beth Wilmot, Daniel Bottomly, Seamus B. Hughes, Julie Gorenstein, Huahang Sun, Samuel B. Luty, Sina Reckel, Xianming Deng, Jinhua Wang, Melissa L. Abel, and Julia E. Maxson

Abstract

Enzymatic IC50 of potential targets for XMD8-87 and XMD16-5.

Published
2023
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78. Targeted RNA editing in brainstem alleviates respiratory dysfunction in a mouse model of Rett syndrome

Author

John R. Sinnamon, Michael E. Jacobson, John F. Yung, Jenna R. Fisk, Sophia Jeng, Shannon K. McWeeney, Lindsay K. Parmelee, Chi Ngai Chan, Siu-Pok Yee, and Gail Mandel

Subjects
Male, Disease Models, Animal, Mice, Multidisciplinary, Methyl-CpG-Binding Protein 2, Mutation, Rett Syndrome, Animals, Humans, RNA Editing, Respiration Disorders, Brain Stem
Abstract

Rett syndrome is a neurological disease due to loss-of-function mutations in the transcription factor, Methyl CpG binding protein 2 (MECP2). Because overexpression of endogenous MECP2 also causes disease, we have exploited a targeted RNA-editing approach to repair patient mutations where levels of MECP2 protein will never exceed endogenous levels. Here, we have constructed adeno-associated viruses coexpressing a bioengineered wild-type ADAR2 catalytic domain (Editase wt ) and either Mecp2 -targeting or nontargeting gfp RNA guides. The viruses are introduced systemically into male mice containing a guanosine to adenosine mutation that eliminates MeCP2 protein and causes classic Rett syndrome in humans. We find that in the mutant mice injected with the Mecp2 -targeting virus, the brainstem exhibits the highest RNA-editing frequency compared to other brain regions. The efficiency is sufficient to rescue MeCP2 expression and function in the brainstem of mice expressing the Mecp2 -targeting virus. Correspondingly, we find that abnormal Rett-like respiratory patterns are alleviated, and survival is prolonged, compared to mice injected with the control gfp guide virus. The levels of RNA editing among most brain regions corresponds to the distribution of guide RNA rather than Editase wt . Our results provide evidence that a targeted RNA-editing approach can alleviate a hallmark symptom in a mouse model of human disease.

Published
2023

83. Monocytic Differentiation and AHR Signaling as Primary Nodes of BET Inhibitor Response in Acute Myeloid Leukemia

Author

Sophia Jeng, Shannon K. McWeeney, Tamilla Nechiporuk, Ravindra Majeti, Andy Kaempf, Jeffrey W. Tyner, Daniel Bottomly, M. Ryan Corces, and Kyle A. Romine

Subjects
Aryl hydrocarbon receptor nuclear translocator, biology, JUNB, Venetoclax, Myeloid leukemia, Antineoplastic Agents, HL-60 Cells, General Medicine, Article, BET inhibitor, Leukemia, Myeloid, Acute, chemistry.chemical_compound, chemistry, Cell Line, Tumor, Cancer research, biology.protein, Humans, Cyclin-dependent kinase 6, Functional genomics, Ex vivo, Signal Transduction
Abstract

To understand mechanisms of response to BET inhibitors (BETi), we mined the Beat AML functional genomic data set and performed genome-wide CRISPR screens on BETi-sensitive and BETi-resistant acute myeloid leukemia (AML) cells. Both strategies revealed regulators of monocytic differentiation—SPI1, JUNB, FOS, and aryl-hydrocarbon receptor signaling (AHR/ARNT)—as determinants of BETi response. AHR activation synergized with BETi, whereas inhibition antagonized BETi-mediated cytotoxicity. Consistent with BETi sensitivity dependence on monocytic differentiation, ex vivo sensitivity to BETi in primary AML patient samples correlated with higher expression of the monocytic markers CSF1R, LILRs, and VCAN. In addition, HL-60 cell line differentiation enhanced its sensitivity to BETi. Further, screens to rescue BETi sensitivity identified BCL2 and CDK6 as druggable vulnerabilities. Finally, monocytic AML patient samples refractory to venetoclax ex vivo were significantly more sensitive to combined BETi + venetoclax. Together, our work highlights mechanisms that could predict BETi response and identifies combination strategies to overcome resistance. Significance: Drug resistance remains a challenge for AML, and new therapies, such as BETi, will require combination approaches to boost single-agent responses. We conducted genome-wide CRISPR screens and functional genomics on AML patient samples to identify leukemic differentiation state and AHR signaling as primary mediators of BETi response. This article is highlighted in the In This Issue feature, p. 403

Published
2021
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84. Antibody-Free Mass Spectrometry Identification of Vascular Integrity Markers in Major Trauma

Author

Karin D. Rodland, Jon M. Jacobs, Tujin Shi, Ann Wachana, Shannon K. McWeeney, Kendall Martin, and Holly E. Hinson

Subjects
biology, business.industry, blood–brain barrier dysfunction, biomarkers, endothelial activation, Mass spectrometry, Proteomics, proteomics, Cancer research, biology.protein, Medicine, Biomarker (medicine), Original Article, Identification (biology), Antibody, business, mass spectrometry
Abstract

Antibody mediated strategies for protein biomarker detection are common, but may limit discovery. We hypothesized that the use of antibody-free proteomics is feasible for detecting protein biomarkers in plasma of patients sustaining major trauma. A subset of subjects with major trauma from a prospective observational trial were analyzed. Patients were assigned to one of four groups based on their presenting Abbreviated Injury Severity Score (AIS). Sensitive, antibody-free selective reaction monitoring (SRM) mass spectrometry (MS), with spiked-in isotopically labeled synthetic peptides, was used for targeted protein quantification of a panel of 10 prospective targets. An overall tiered sensitivity analytical approach was used for peptide detection and quantification based upon plasma immunoaffinity depletion and PRISM fractionation. Forty-four patients were included in the analysis, of which 82% were men with a mean age of 50 (±19) years. Half had isolated head injury (n = 22), with the remaining patients experiencing multiple injuries or polytrauma (n = 14), isolated body injury (n = 2), or minor injury (n = 6). Peptides from 3 proteins (vascular adhesion molecule 1 [VCAM1], intercellular adhesion molecule 1 [ICAM1], and matrix metalloproteinase 9 [MMP9]) were detected and quantified in non-depleted processed plasma. Peptides from 2 proteins (angiopoietin 2 [Ang2] and plasminogen activator inhibitor-1 [PAI1]) were detected and quantification in depleted plasma, whereas the remaining 5 of the 10 prospective targets were undetected. VCAM1 (p = 0.02) and MMP9 (p = 0.03) were significantly upregulated in in the major trauma groups (1–3) versus mild injury group (4), whereas the others were not. There were no differences in protein expression between patients with traumatic brain injury (TBI; groups 1 and 2) versus those without TBI (groups 3 and 4). We detected non-specific upregulation of proteins reflecting blood–brain barrier breakdown in severely injured patients, indicating label-free MS techniques are feasible and may be informative.

Published
2021
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87. Luxeptinib (CG-806) Targets FLT3 and Clusters of Kinases Operative in Acute Myeloid Leukemia

Author

William G. Rice, Stephen B. Howell, Hongying Zhang, Nasrin Rastgoo, Andrea Local, Stephen E. Kurtz, Pierrette Lo, Daniel Bottomly, Beth Wilmot, Shannon K. McWeeney, Brian J. Druker, and Jeffrey W. Tyner

Subjects
Myeloid, Cancer Research, Pediatric Research Initiative, Childhood Leukemia, Pediatric Cancer, Oncology and Carcinogenesis, Acute, Article, Mice, Dogs, Rare Diseases, Clinical Research, Animals, Humans, Oncology & Carcinogenesis, Protein Kinase Inhibitors, Cancer, Pediatric, Leukemia, Hematology, Pharmacology and Pharmaceutical Sciences, Leukemia, Myeloid, Acute, Orphan Drug, Oncology, fms-Like Tyrosine Kinase 3, 5.1 Pharmaceuticals, Mutation, Development of treatments and therapeutic interventions, Signal Transduction
Abstract

Luxeptinib (CG-806) simultaneously targets FLT3 and select other kinase pathways operative in myeloid malignancies. We investigated the range of kinases it inhibits, its cytotoxicity landscape ex vivo with acute myeloid leukemia (AML) patient samples, and its efficacy in xenograft models. Luxeptinib inhibits wild-type (WT) and many of the clinically relevant mutant forms of FLT3 at low nanomolar concentrations. It is a more potent inhibitor of the activity of FLT3—internal tandem duplication, FLT3 kinase domain and gatekeeper mutants than against WT FLT3. Broad kinase screens disclosed that it also inhibits other kinases that can drive oncogenic signaling and rescue pathways, but spares kinases known to be associated with clinical toxicity. In vitro profiling of luxeptinib against 186 AML fresh patient samples demonstrated greater potency relative to other FLT3 inhibitors, including cases with mutations in FLT3, isocitrate dehydrogenase-1/2, ASXL1, NPM1, SRSF2, TP53, or RAS, and activity was documented in a xenograft AML model. Luxeptinib administered continuously orally every 12 hours at a dose that yielded a mean Cmin plasma concentration of 1.0 ± 0.3 μmol/L (SEM) demonstrated strong antitumor activity but no myelosuppression or evidence of tissue damage in mice or dogs in acute toxicology studies. On the basis of these studies, luxeptinib was advanced into a phase I trial for patients with AML and myelodysplastic/myeloproliferative neoplasms.

Published
2022

88. Comprehensive molecular characterization of a rare case of Philadelphia chromosome-positive acute myeloid leukemia

Author

Mara W, Rosenberg, Samantha L, Savage, Christopher A, Eide, Anna, Reister Schultz, Rachel J, Cook, Richard D, Press, Carole, Rempfer, Garrett, Eickelberg, Beth, Wilmot, Shannon K, McWeeney, Jeffrey W, Tyner, Brian J, Druker, and Cristina E, Tognon

Subjects
Phosphatidylinositol 3-Kinases, Leukemia, Myeloid, Acute, Leukemia, Myelogenous, Chronic, BCR-ABL Positive, Fusion Proteins, bcr-abl, Humans, Philadelphia Chromosome, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Translocation, Genetic
Abstract

The Philadelphia chromosome (Ph) resulting from the t(9;22) translocation generates the oncogenic BCR::ABL1 fusion protein that is most commonly associated with chronic myeloid leukemia (CML) and Ph-positive (Ph+) acute lymphoblastic leukemia (ALL). There are also rare instances of patients (≤1%) with newly diagnosed acute myeloid leukemia (AML) that harbor this translocation (Paietta et al.

Published
2022

92. A genome-wide CRISPR screen identifies regulators of MAPK and MTOR pathways that mediate resistance to sorafenib in acute myeloid leukemia

Author

Christopher A. Eide, Stephen E. Kurtz, Shannon K. McWeeney, Tamilla Nechiporuk, Daniel Bottomly, Alisa Damnernsawad, and Jeffrey W. Tyner

Subjects
0301 basic medicine, Sorafenib, MAPK/ERK pathway, Drug resistance, mTORC1, 03 medical and health sciences, chemistry.chemical_compound, fluids and secretions, 0302 clinical medicine, hemic and lymphatic diseases, medicine, neoplasms, PI3K/AKT/mTOR pathway, Quizartinib, business.industry, Myeloid leukemia, hemic and immune systems, Hematology, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, embryonic structures, Cancer research, business, medicine.drug, Crenolanib
Abstract

Drug resistance impedes the long-term effect of targeted therapies in acute myeloid leukemia (AML), necessitating the identification of mechanisms underlying resistance. Approximately 25% of AML patients carry FLT3 mutations and develop post-treatment insensitivity to FLT3 inhibitors, including sorafenib. Using a genomewide CRISPR screen, we identified LZTR1, NF1, TSC1 and TSC2, negative regulators of the MAPK and MTOR pathways, as mediators of resistance to sorafenib. Analyses of ex vivo drug sensitivity assays in samples from patients with FLT3-ITD AML revealed that lower expression of LZTR1, NF1, and TSC2 correlated with sensitivity to sorafenib. Importantly, MAPK and/or MTOR complex 1 (MTORC1) activity was upregulated in AML cells made resistant to several FLT3 inhibitors, including crenolanib, quizartinib, and sorafenib. These cells were sensitive to MEK inhibitors, and the combination of FLT3 and MEK inhibitors showed enhanced efficacy, suggesting the effectiveness of such treatment in AML patients with FLT3 mutations and those with resistance to FLT3 inhibitors.

Published
2020
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93. AZD4320, A Dual Inhibitor of Bcl-2 and Bcl-xL, Induces Tumor Regression in Hematologic Cancer Models without Dose-limiting Thrombocytopenia

Author

Shenghua Wen, Srividya B. Balachander, Francis D. Gibbons, Michael Zinda, William McCoull, Nancy Su, Barry R. Davies, Stephen E. Kurtz, Terry MacIntyre, Edward J. Hennessy, Martin Wild, Paula Lewis, Ricky W. Johnstone, Jamal Carlos Saeh, Kathleen A. Burke, Omid Tavana, Andrea Newbold, Elizabeth A. Coker, Alwin Schuller, Justin Cidado, Diebold R Bruce, Tristan J. Lubinski, Steven Criscione, J. Paul Secrist, Kate Byth, Gareth P. Gregory, Deborah Lawson, Ammar Adam, Shannon K. McWeeney, Stephen Fawell, Thomas Gero, Jeffrey G. Varnes, Eric Gangl, Patricia Jaaks, Jeffrey W. Tyner, Mathew J. Garnett, Areya Tabatabai, and Stephanos Ioannidis

Subjects
0301 basic medicine, Cancer Research, biology, Venetoclax, Chronic lymphocytic leukemia, Cancer, Myeloid leukemia, Bcl-xL, medicine.disease, 3. Good health, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Oncology, chemistry, In vivo, Apoptosis, 030220 oncology & carcinogenesis, biology.protein, medicine, Cancer research, B cell
Abstract

Purpose: Targeting Bcl-2 family members upregulated in multiple cancers has emerged as an important area of cancer therapeutics. While venetoclax, a Bcl-2–selective inhibitor, has had success in the clinic, another family member, Bcl-xL, has also emerged as an important target and as a mechanism of resistance. Therefore, we developed a dual Bcl-2/Bcl-xL inhibitor that broadens the therapeutic activity while minimizing Bcl-xL–mediated thrombocytopenia. Experimental Design: We used structure-based chemistry to design a small-molecule inhibitor of Bcl-2 and Bcl-xL and assessed the activity against in vitro cell lines, patient samples, and in vivo models. We applied pharmacokinetic/pharmacodynamic (PK/PD) modeling to integrate our understanding of on-target activity of the dual inhibitor in tumors and platelets across dose levels and over time. Results: We discovered AZD4320, which has nanomolar affinity for Bcl-2 and Bcl-xL, and mechanistically drives cell death through the mitochondrial apoptotic pathway. AZD4320 demonstrates activity in both Bcl-2– and Bcl-xL–dependent hematologic cancer cell lines and enhanced activity in acute myeloid leukemia (AML) patient samples compared with the Bcl-2–selective agent venetoclax. A single intravenous bolus dose of AZD4320 induces tumor regression with transient thrombocytopenia, which recovers in less than a week, suggesting a clinical weekly schedule would enable targeting of Bcl-2/Bcl-xL–dependent tumors without incurring dose-limiting thrombocytopenia. AZD4320 demonstrates monotherapy activity in patient-derived AML and venetoclax-resistant xenograft models. Conclusions: AZD4320 is a potent molecule with manageable thrombocytopenia risk to explore the utility of a dual Bcl-2/Bcl-xL inhibitor across a broad range of tumor types with dysregulation of Bcl-2 prosurvival proteins.

Published
2020
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94. Clinical impact of COVID-19 on patients with cancer (CCC19): a cohort study

Author

Dimitrios Farmakiotis, Susie Owenby, Arturo Loaiza-Bonilla, Mansi R. Shah, Matthew Puc, Vadim S. Koshkin, Ahmad Daher, Prakash Peddi, Cameron Rink, Heloisa P. Soares, Eneida R. Nemecek, Mehmet Asim Bilen, Sanjay Mishra, Lidia Schapira, Amit Verma, Ali Raza Khaki, Chih-Yuan Hsu, Sandy DiLullo, Mark Bonnen, Jeanna Knoble, Carla Casulo, Umit Topaloglu, Jorge A. Garcia, Geoffrey Shouse, Praveen Vikas, Clarke A. Low, Archana Ajmera, George D. Demetri, Leyre Zubiri, Grace Glace, Shannon K. McWeeney, Susan Yackzan, Pamela C Egan, Rachel P. Rosovsky, Salvatore Del Prete, Anthony P. Gulati, Lane R. Rosen, Andy Futreal, Merry Jennifer Markham, Sabitha Prabhakaran, Alicia K. Morgans, Sarah Nagle, Lisa Weissmann, Albert C. Yeh, Ziad Bakouny, Stephanie Berg, David Gill, Marcus Messmer, Ryan Nguyen, Terence Duane Rhodes, Vikram M. Narayan, Matthew D. Galsky, Arielle Elkrief, Lori J. Rosenstein, Roy S. Herbst, Justin Shaya, Thorvardur R. Halfdanarson, Douglas B. Johnson, Orestis A. Panagiotou, Sanjay G. Revankar, Toni K. Choueiri, Yu Shyr, Fiona Busser, Kaitlin M. Kelleher, Nicole M. Kuderer, Paul L. Weinstein, Anup Kasi, Grace Shaw, Adam J. Olszewski, Catherine Curran, Samuel M. Rubinstein, Angelo Cabal, Michael H. Bar, John F. Deeken, Vivek Subbiah, Abdul Hai Mansoor, Hina Khan, Rana R. McKay, Catherine Stratton, Saurabh Dahiya, Marc A. Rovito, John Philip, Sanjay Shete, Oscar K. Serrano, Julie Fu, Daniel W. Bowles, Candice Schwartz, Tian Zhang, Pier Vitale Nuzzo, Eric H. Bernicker, Wenxin Xu, Genevieve M. Boland, Sarah Wall, Babar Bashir, Solange Peters, Neeta K. Venepalli, Sandeep H. Mashru, William A. Wood, Anne H. Angevine, Mary F. Mulcahy, Gilberto Lopes, Justin F. Gainor, Jessica Hawley, Monika Joshi, Christopher R. Friese, Navid Hafez, Heather H. Nelson, Gregory J. Riely, Jordan Kharofa, Nilo Azad, Chintan Shah, Gerald Batist, Mary Salazar, Rosemary Zacks, Alice Zhou, Lawrence E. Feldman, Paul Fu, Gary H. Lyman, Nathaniel Bouganim, John A. Steinharter, Shilpa Gupta, Matthias Weiss, Peter Paul Yu, Susan Van Loon, Jamie Stratton, Karen Vega-Luna, Tyler Masters, Christopher Lemmon, Aakash Desai, Bryan A. Faller, Jessica M. Clement, Zhuoer Xie, Keith Stockerl-Goldstein, Corrie A. Painter, Gabrielle Bouchard, Rulla M. Tamimi, Daruka Mahadevan, Rimma Belenkaya, Jill S. Barnholtz-Sloan, Jarushka Naidoo, Amelie G. Ramirez, Philip E. Lammers, Elizabeth A. Griffiths, Michael J. Gurley, X. Li, Jonathan Riess, Syed A. Ahmad, Daniel Blake Flora, Salma K. Jabbour, Jared D. Acoba, Neeraj Agarwal, Ang Li, Sarah Mushtaq, Firas Wehbe, Tanios Bekaii-Saab, Donald C. Vinh, Emily Hsu, Ryan Monahan, Petros Grivas, Harry Menon, John M. Nakayama, Janice M. Mehnert, Elizabeth Marie Wulff-Burchfield, Sara Matar, Paul E. Oberstein, Mary M. Pasquinelli, Axel Grothey, Jack West, John C. Leighton, Dawn L. Hershman, Leslie A. Fecher, Aditya Bardia, Sumit A. Shah, Barbara Logan, Kerry L. Reynolds, Michael A. Thompson, Robert L. Rice, Erin Cook, Trisha Wise-Draper, Christine Bestvina, Daniel Castellano, Paolo Caimi, K. M.Steve Lo, Ruben A. Mesa, Maheen Z. Abidi, Alvaro G. Menendez, Daniel G. Stover, Colleen Lewis, Bertrand Routy, Deborah B. Doroshow, Carmen C. Solorzano, M. Wasif Saif, Rohit Bishnoi, Michael Glover, David D. Chism, Briana Barrow, Christopher McNair, Dimpy P. Shah, Erin A. Gillaspie, Andrea J. Zimmer, Andrew Schmidt, Jessica K. Altman, Michelle Marcum, Rawad Elias, Balazs Halmos, Karen Stauffer, Gayathri Nagaraj, Ardaman Shergill, Mark E. Dailey, Catherine Handy Marshall, Pramod K. Srivastava, Shuchi Gulati, Alokkumar Jha, Mateo Bover Larroya, Mark A. Lewis, Young Soo Rho, James L. Chen, Eli Van Allen, Julie Tsu Yu Wu, Antonio Giordano, Amit Kulkarni, Joerg Rathmann, Donna R. Rivera, Narjust Duma, Maryam B. Lustberg, Theresa M. Carducci, Jeremy L. Warner, Elizabeth Robilotti, Patricia LoRusso, Rohit Jain, Amit Sanyal, Nizar M. Tannir, Kent Hoskins, Nathan A. Pennell, Brian I. Rini, Suki Subbiah, COVID-19 and Cancer Consortium, Abidi, M., Acoba, J.D., Agarwal, N., Ahmad, S., Ajmera, A., Altman, J., Angevine, A.H., Azad, N., Bar, M.H., Bardia, A., Barnholtz-Sloan, J., Barrow, B., Bashir, B., Belenkaya, R., Berg, S., Bernicker, E.H., Bestvina, C., Bishnoi, R., Boland, G., Bonnen, M., Bouchard, G., Bowles, D.W., Busser, F., Cabal, A., Caimi, P., Carducci, T., Casulo, C., Chen, J.L., Clement, J.M., Chism, D., Cook, E., Curran, C., Daher, A., Dailey, M., Dahiya, S., Deeken, J., Demetri, G.D., DiLullo, S., Duma, N., Elias, R., Faller, B., Fecher, L.A., Feldman, L.E., Friese, C.R., Fu, P., Fu, J., Futreal, A., Gainor, J., Garcia, J., Gill, D.M., Gillaspie, E.A., Giordano, A., Glace, M.G., Grothey, A., Gulati, S., Gurley, M., Halmos, B., Herbst, R., Hershman, D., Hoskins, K., Jain, R.K., Jabbour, S., Jha, A., Johnson, D.B., Joshi, M., Kelleher, K., Kharofa, J., Khan, H., Knoble, J., Koshkin, V.S., Kulkarni, A.A., Lammers, P.E., Leighton, J.C., Lewis, M.A., Li, X., Li, A., Lo, KMS, Loaiza-Bonilla, A., LoRusso, P., Low, C.A., Lustberg, M.B., Mahadevan, D., Mansoor, A.H., Marcum, M., Markham, M.J., Handy Marshall, C., Mashru, S.H., Matar, S., McNair, C., McWeeney, S., Mehnert, J.M., Menendez, A., Menon, H., Messmer, M., Monahan, R., Mushtaq, S., Nagaraj, G., Nagle, S., Naidoo, J., Nakayama, J.M., Narayan, V., Nelson, H.H., Nemecek, E.R., Nguyen, R., Nuzzo, P.V., Oberstein, P.E., Olszewski, A.J., Owenby, S., Pasquinelli, M.M., Philip, J., Prabhakaran, S., Puc, M., Ramirez, A., Rathmann, J., Revankar, S.G., Rho, Y.S., Rhodes, T.D., Rice, R.L., Riely, G.J., Riess, J., Rink, C., Robilotti, E.V., Rosenstein, L., Routy, B., Rovito, M.A., Saif, M.W., Sanyal, A., Schapira, L., Schwartz, C., Serrano, O., Shah, M., Shah, C., Shaw, G., Shergill, A., Shouse, G., Soares, H.P., Solorzano, C.C., Srivastava, P.K., Stauffer, K., Stover, D.G., Stratton, J., Stratton, C., Subbiah, V., Tamimi, R., Tannir, N.M., Topaloglu, U., Van Allen, E., Van Loon, S., Vega-Luna, K., Venepalli, N., Verma, A.K., Vikas, P., Wall, S., Weinstein, P.L., Weiss, M., Wise-Draper, T., Wood, W.A., Xu, W.V., Yackzan, S., Zacks, R., Zhang, T., Zimmer, A.J., and West, J.

Subjects
Prognostic variable, medicine.medical_specialty, business.industry, Cancer, General Medicine, Odds ratio, Aged, Antiviral Agents/therapeutic use, Azithromycin/therapeutic use, Betacoronavirus, Cause of Death, Comorbidity, Coronavirus Infections/drug therapy, Coronavirus Infections/epidemiology, Coronavirus Infections/mortality, Databases, Factual, Female, Humans, Hydroxychloroquine/therapeutic use, Male, Middle Aged, Neoplasms/epidemiology, Neoplasms/mortality, Neoplasms/therapy, Pandemics, Pneumonia, Viral/drug therapy, Pneumonia, Viral/epidemiology, Pneumonia, Viral/mortality, Prognosis, Risk Factors, 030204 cardiovascular system & hematology, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Cohort, Clinical endpoint, Medicine, 030212 general & internal medicine, business, Cause of death, Cohort study
Abstract

Summary Background Data on patients with COVID-19 who have cancer are lacking. Here we characterise the outcomes of a cohort of patients with cancer and COVID-19 and identify potential prognostic factors for mortality and severe illness. Methods In this cohort study, we collected de-identified data on patients with active or previous malignancy, aged 18 years and older, with confirmed severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection from the USA, Canada, and Spain from the COVID-19 and Cancer Consortium (CCC19) database for whom baseline data were added between March 17 and April 16, 2020. We collected data on baseline clinical conditions, medications, cancer diagnosis and treatment, and COVID-19 disease course. The primary endpoint was all-cause mortality within 30 days of diagnosis of COVID-19. We assessed the association between the outcome and potential prognostic variables using logistic regression analyses, partially adjusted for age, sex, smoking status, and obesity. This study is registered with ClinicalTrials.gov, NCT04354701, and is ongoing. Findings Of 1035 records entered into the CCC19 database during the study period, 928 patients met inclusion criteria for our analysis. Median age was 66 years (IQR 57–76), 279 (30%) were aged 75 years or older, and 468 (50%) patients were male. The most prevalent malignancies were breast (191 [21%]) and prostate (152 [16%]). 366 (39%) patients were on active anticancer treatment, and 396 (43%) had active (measurable) cancer. At analysis (May 7, 2020), 121 (13%) patients had died. In logistic regression analysis, independent factors associated with increased 30-day mortality, after partial adjustment, were: increased age (per 10 years; partially adjusted odds ratio 1·84, 95% CI 1·53–2·21), male sex (1·63, 1·07–2·48), smoking status (former smoker vs never smoked: 1·60, 1·03–2·47), number of comorbidities (two vs none: 4·50, 1·33–15·28), Eastern Cooperative Oncology Group performance status of 2 or higher (status of 2 vs 0 or 1: 3·89, 2·11–7·18), active cancer (progressing vs remission: 5·20, 2·77–9·77), and receipt of azithromycin plus hydroxychloroquine (vs treatment with neither: 2·93, 1·79–4·79; confounding by indication cannot be excluded). Compared with residence in the US-Northeast, residence in Canada (0·24, 0·07–0·84) or the US-Midwest (0·50, 0·28–0·90) were associated with decreased 30-day all-cause mortality. Race and ethnicity, obesity status, cancer type, type of anticancer therapy, and recent surgery were not associated with mortality. Interpretation Among patients with cancer and COVID-19, 30-day all-cause mortality was high and associated with general risk factors and risk factors unique to patients with cancer. Longer follow-up is needed to better understand the effect of COVID-19 on outcomes in patients with cancer, including the ability to continue specific cancer treatments. Funding American Cancer Society, National Institutes of Health, and Hope Foundation for Cancer Research.

Published
2020
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95. Reversible suppression of T cell function in the bone marrow microenvironment of acute myeloid leukemia

Author

Ted Laderas, Pierrette Lo, Shannon K. McWeeney, Yoko Kosaka, Guang Fan, Clare Lefave, Adam J. Lamble, Cristina E. Tognon, Lauren K. Brady, Marc M. Loriaux, Allie Maffit, Jennifer N. Saultz, Andy Kaempf, David Soong, Motomi Mori, Weiwei Wang, Homer Adams, Nicola Long, Fei Huang, Brian J. Druker, Evan F. Lind, and Jeffrey W. Tyner

Subjects
T cell, T-Lymphocytes, Programmed Cell Death 1 Receptor, immune microenvironment, Immune system, Immunology and Inflammation, AML, Bone Marrow, hemic and lymphatic diseases, medicine, Tumor Microenvironment, Humans, CTLA-4 Antigen, Hepatitis A Virus Cellular Receptor 2, Cell Proliferation, Acute leukemia, Tumor microenvironment, Multidisciplinary, business.industry, leukemia, Induction chemotherapy, Myeloid leukemia, Biological Sciences, medicine.disease, Leukemia, Leukemia, Myeloid, Acute, medicine.anatomical_structure, Cancer research, checkpoint blockade, Cytokines, Bone marrow, business
Abstract

Significance Acute myeloid leukemia (AML) is the most common acute leukemia in adults, with a 5-y survival of 29%. Immunotherapy is based on the premise that tumors suppress the immune system. We investigated the status of T cell immunity in AML at the time of diagnosis. We found a significant association between T cell percentage in the bone marrow and overall survival in newly diagnosed AML patients. When we evaluated the T cells from the bone marrow of patients with AML, one-third displayed profound functional impairment. Most of these compromised T cells, however, could be rescued using checkpoint inhibitors. Our results support the development of immune checkpoint therapy to combat this deadly disease., Acute myeloid leukemia (AML) is the most common acute leukemia in adults, with approximately four new cases per 100,000 persons per year. Standard treatment for AML consists of induction chemotherapy with remission achieved in 50 to 75% of cases. Unfortunately, most patients will relapse and die from their disease, as 5-y survival is roughly 29%. Therefore, other treatment options are urgently needed. In recent years, immune-based therapies have led to unprecedented rates of survival among patients with some advanced cancers. Suppression of T cell function in the tumor microenvironment is commonly observed and may play a role in AML. We found that there is a significant association between T cell infiltration in the bone marrow microenvironment of newly diagnosed patients with AML and increased overall survival. Functional studies aimed at establishing the degree of T cell suppression in patients with AML revealed impaired T cell function in many patients. In most cases, T cell proliferation could be restored by blocking the immune checkpoint molecules PD-1, CTLA-4, or TIM3. Our data demonstrate that AML establishes an immune suppressive environment in the bone marrow, in part through T cell checkpoint function.

Published
2020

97. Subcellular localization of FANCD2 is associated with survival in ovarian carcinoma

Author

Shawn Campbell, Adam J. Krieg, Nadja Pejovic, Sonali Joshi, Tanja Pejovic, Jeong Y. Lim, Shannon K. McWeeney, Yukie Bean, and Paulette Mhawech-Fauceglia

Subjects
0301 basic medicine, endocrine system, congenital, hereditary, and neonatal diseases and abnormalities, Microarray, medicine.drug_class, 03 medical and health sciences, 0302 clinical medicine, Fanconi anemia, hemic and lymphatic diseases, Ovarian carcinoma, subcellular localization, medicine, biology, business.industry, FANCD2, nutritional and metabolic diseases, medicine.disease, Subcellular localization, ovarian carcinoma, 030104 developmental biology, Oncology, Estrogen, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Immunohistochemistry, Antibody, business, Ovarian cancer, Research Paper
Abstract

Objective: Ovarian cancer is a leading cause of death from gynecological cancers. Late diagnosis and resistance to therapy results in mortality and effective screening is required for early diagnosis and better treatments. Expression of the Fanconi Anemia complementation group D2 protein (FANCD2) is reduced in ovarian surface epithelial cells (OSE) in patients with ovarian cancer. FANCD2 has been studied for its role in DNA repair; however multiple studies have suggested that FANCD2 has a role outside the nucleus. We sought to determine whether subcellular localization of FANCD2 correlates with patient outcome in ovarian cancer. Methods: We examined the subcellular localization of FANCD2 in primary OSE cells from consenting patients with ovarian cancer or a normal ovary. Ovarian tissue microarray was stained with anti-FANCD2 antibody by immunohistochemistry and the correlation of FANCD2 localization with patient outcomes was assessed. FANCD2 binding partners were identified by immunoprecipitation of cytoplasmic FANCD2. Results: Nuclear and cytoplasmic localization of FANCD2 was observed in OSEs from both normal and ovarian cancer patients. Patients with cytoplasmic localization of FANCD2 (cFANCD2) experienced significantly longer median survival time (50 months), versus patients without cytoplasmic localization of FANCD2 (38 months; p < 0.05). Cytoplasmic FANCD2 was found to bind proteins involved in the innate immune system, cellular response to heat stress, amyloid fiber formation and estrogen mediated signaling. Conclusions: Our results suggest that the presence of cytoplasmic FANCD2 modulates FANCD2 activity resulting in better survival outcome in ovarian cancer patients.

Published
2020
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98. Identification and prioritization of myeloid malignancy germline variants in a large cohort of adult patients with AML

Author

Prapti A. Patel, Daniel A. Pollyea, Richard D. Press, Brian J. Druker, Ujwal Shinde, Allison M Bock, Srinivas K. Tantravahi, Tauangtham Anekpuritanang, Nicola Long, Jeffrey W. Tyner, Jonathan C. Savage, Shannon K. McWeeney, Tiffany L. Lee, Uma Borate, Robert H. Collins, Srinidhi Radhakrishnan, Guang Fan, Fei Yang, Michael W. Deininger, Daniel Bottomly, Jose M Solis-Ruiz, Cristina E. Tognon, Anupriya Agarwal, Beth Wilmot, and Saikripa Radhakrishnan

Subjects
Male, Candidate gene, Myeloid, Immunology, Biology, Biochemistry, Germline, medicine, Humans, Genetic Predisposition to Disease, Gene, CHEK2, Exome, Germ-Line Mutation, Aged, Genetics, Myeloid Neoplasia, medicine.diagnostic_test, Age Factors, Cell Biology, Hematology, Middle Aged, medicine.disease, Neoplasm Proteins, Leukemia, Leukemia, Myeloid, Acute, medicine.anatomical_structure, Germ Cells, Skin biopsy, Core Binding Factor Alpha 2 Subunit, Female
Abstract

Inherited predisposition to myeloid malignancies is more common than previously appreciated. We analyzed the whole-exome sequencing data of paired leukemia and skin biopsy samples from 391 adult patients from the Beat AML 1.0 consortium. Using the 2015 American College of Medical Genetics and Genomics (ACMG) guidelines for variant interpretation, we curated 1547 unique variants from 228 genes. The pathogenic/likely pathogenic (P/LP) germline variants were identified in 53 acute myeloid leukemia (AML) patients (13.6%) in 34 genes, including 6.39% (25/391) of patients harboring P/LP variants in genes considered clinically actionable (tier 1). 41.5% of the 53 patients with P/LP variants were in genes associated with the DNA damage response. The most frequently mutated genes were CHEK2 (8 patients) and DDX41 (7 patients). Pathogenic germline variants were also found in new candidate genes (DNAH5, DNAH9, DNMT3A, and SUZ12). No strong correlation was found between the germline mutational rate and age of AML onset. Among 49 patients who have a reported history of at least one family member affected with hematological malignancies, 6 patients harbored known P/LP germline variants and the remaining patients had at least one variant of uncertain significance, suggesting a need for further functional validation studies. Using CHEK2 as an example, we show that three-dimensional protein modeling can be one of the effective methodologies to prioritize variants of unknown significance for functional studies. Further, we evaluated an in silico approach that applies ACMG curation in an automated manner using the tool for assessment and (TAPES) prioritization in exome studies, which can minimize manual curation time for variants. Overall, our findings suggest a need to comprehensively understand the predisposition potential of many germline variants in order to enable closer monitoring for disease management and treatment interventions for affected patients and families.

Published
2022

99. Disruption of the MYC Super-Enhancer Complex by Dual Targeting of FLT3 and LSD1 in Acute Myeloid Leukemia

Author

William M. Yashar, Brittany M. Curtiss, Daniel J. Coleman, Jake VanCampen, Garth Kong, Jommel Macaraeg, Joseph Estabrook, Emek Demir, Nicola Long, Daniel Bottomly, Shannon K. McWeeney, Jeffrey W. Tyner, Brian J. Druker, Julia E. Maxson, and Theodore P. Braun

Subjects
Cancer Research, Oncology, hemic and lymphatic diseases, Molecular Biology
Abstract

Mutations in Fms-like tyrosine kinase 3 (FLT3) are common drivers in acute myeloid leukemia (AML) yet FLT3 inhibitors only provide modest clinical benefit. Prior work has shown that inhibitors of lysine-specific demethylase 1 (LSD1) enhance kinase inhibitor activity in AML. Here we show that combined LSD1 and FLT3 inhibition induces synergistic cell death in FLT3-mutant AML. Multi-omic profiling revealed that the drug combination disrupts STAT5, LSD1, and GFI1 binding at the MYC blood superenhancer, suppressing superenhancer accessibility as well as MYC expression and activity. The drug combination simultaneously results in the accumulation of repressive H3K9me1 methylation, an LSD1 substrate, at MYC target genes. We validated these findings in 72 primary AML samples with the nearly every sample demonstrating synergistic responses to the drug combination. Collectively, these studies reveal how epigenetic therapies augment the activity of kinase inhibitors in FLT3-ITD (internal tandem duplication) AML. Implications: This work establishes the synergistic efficacy of combined FLT3 and LSD1 inhibition in FLT3-ITD AML by disrupting STAT5 and GFI1 binding at the MYC blood-specific superenhancer complex.

Published
2022
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100. Integrative Analysis of Drug Response and Clinical Outcome in Acute Myeloid Leukemia

Author

Daniel Bottomly, Nicola Long, Anna Reister Schultz, Stephen E. Kurtz, Cristina E. Tognon, Kara Johnson, Melissa Abel, Anupriya Agarwal, Sammantha Avaylan, Erik Benton, Aurora Blucher, Uma Borate, Theodore Braun, Jordana Brown, Jade Bryant, Russell Burke, Amy Carlos, Bill H. Chang, Hyun Jun Cho, Stephen Christy, Cody Coblentz, Aaron M. Cohen, Amanda d’Almeida, Rachel Cook, Alexey Danilov, Kim-Hien T. Dao, Michie Degnin, James Dibb, Christopher A. Eide, Isabel A. English, Stuart Hagler, Heath Harrelson, Rachel Henson, Hibery Ho, Sunil Joshi, Brian Junio, Andy Kaempf, Yoko Kosaka, Ted Laderas, Matt Lawhead, Hyunjung Lee, Jessica T. Leonard, Chenwei Lin, Evan F. Lind, Selina Qiuying Liu, Pierrette Lo, Marc M. Loriaux, Samuel Luty, Julia E. Maxson, Tara Macey, Jacqueline Martinez, Jessica Minnier, Andrea Monteblanco, Motomi Mori, Quinlan Morrow, Dylan Nelson, Justin Ramsdill, Angela Rofelty, Alexandra Rogers, Peter Ryabinin, Jennifer N. Saultz, David A. Sampson, Samantha L. Savage, Robert Schuff, Robert Searles, Rebecca L. Smith, Stephen E. Spurgeon, Tyler Sweeney, Ronan T. Swords, Aashis Thapa, Karina Thiel-Klare, Elie Traer, Jake Wagner, Beth Wilmot, Joelle Wolf, Guanming Wu, Amy Yates, Haijiao Zhang, Christopher Cogle, Robert H. Collins, Michael W. Deininger, Christopher S. Hourigan, Craig T. Jordan, Tara L. Lin, Micaela E. Martinez, Rachel R. Pallapati, Daniel Pollyea, Tony Pomicter, Justin M. Watts, Scott Weir, Brian J. Druker, Shannon K. McWeeney, and Jeffrey W. Tyner

Published
2022
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