Your search keyword '"Roderick, P"' showing total 203 results

1. JAK/STAT Pathway Inhibition Reverts IL7-Induced Glucocorticoid Resistance in a Subset of Human T-Cell Acute Lymphoblastic Leukemia

Author

Delgado-Martin, Cristina, Shimano, Kristin, Zinter, Matthew S, Wahlstrom, Justin T, Smith, Geoffrey A, Taunton, Jack, Winter, Stuart S, Roderick, Justine E, Kelliher, Michelle, Horton, Terzah M, Wood, Brent L, Teachey, David T, and Hermiston, Michelle L

Subjects

Rare Diseases, Childhood Leukemia, Clinical Research, Cancer, Hematology, Pediatric, Pediatric Cancer, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Animals, Antineoplastic Agents, Bcl-2-Like Protein 11, Cell Line, Tumor, Dexamethasone, Disease Models, Animal, Drug Resistance, Neoplasm, Glucocorticoids, Humans, Interleukin-7, Janus Kinase Inhibitors, Janus Kinases, Mice, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma, Proto-Oncogene Proteins c-bcl-2, STAT Transcription Factors, Signal Transduction, Xenograft Model Antitumor Assays, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Paediatrics and Reproductive Medicine, Immunology

Abstract

While outcomes for children with T-cell acute lymphoblastic leukemia (T-ALL) have improved dramatically, survival rates for patients with relapsed/refractory disease remain dismal. Prior studies indicate that glucocorticoid (GC) resistance is more common than resistance to other chemotherapies at relapse. In addition, failure to clear peripheral blasts during a prednisone prophase correlates with an elevated risk of relapse in newly diagnosed patients. Here we show that intrinsic GC resistance is present at diagnosis in early thymic precursor (ETP) T-ALLs as well as in a subset of non-ETP T-ALLs. GC-resistant non-ETP T-ALLs are characterized by strong induction of JAK/STAT signaling in response to interleukin-7 (IL7) stimulation. Removing IL7 or inhibiting JAK/STAT signaling sensitizes these T-ALLs, and a subset of ETP T-ALLs, to GCs. The combination of the GC dexamethasone and the JAK1/2 inhibitor ruxolitinib altered the balance between pro- and anti-apoptotic factors in samples with IL7-dependent GC resistance, but not in samples with IL7-independent GC resistance. Together, these data suggest that the addition of ruxolitinib or other inhibitors of IL7 receptor/JAK/STAT signaling may enhance the efficacy of GCs in a biologically defined subset of T-ALL.

Published

2016

2. Epigenetic regulator genes direct lineage switching in MLL/AF4 leukemia

Author

Tirtakusuma, Ricky, Szoltysek, Katarzyna, Milne, Paul, Grinev, Vasily V., Ptasinska, Anetta, Chin, Paulynn S., Meyer, Claus, Nakjang, Sirintra, Hehir-Kwa, Jayne Y., Williamson, Daniel, Cauchy, Pierre, Keane, Peter, Assi, Salam A., Ashtiani, Minoo, Kellaway, Sophie G., Imperato, Maria R., Vogiatzi, Fotini, Schweighart, Elizabeth K., Lin, Shan, Wunderlich, Mark, Stutterheim, Janine, Komkov, Alexander, Zerkalenkova, Elena, Evans, Paul, McNeill, Hesta, Elder, Alex, Martinez-Soria, Natalia, Fordham, Sarah E., Shi, Yuzhe, Russell, Lisa J., Pal, Deepali, Smith, Alex, Kingsbury, Zoya, Becq, Jennifer, Eckert, Cornelia, Haas, Oskar A., Carey, Peter, Bailey, Simon, Skinner, Roderick, Miakova, Natalia, Collin, Matthew, Bigley, Venetia, Haniffa, Muzlifah, Marschalek, Rolf, Harrison, Christine J., Cargo, Catherine A., Schewe, Denis, Olshanskaya, Yulia, Thirman, Michael J., Cockerill, Peter N., Mulloy, James C., Blair, Helen J., Vormoor, Josef, Allan, James M., Bonifer, Constanze, Heidenreich, Olaf, and Bomken, Simon

Abstract

The fusion gene MLL/AF4 defines a high-risk subtype of pro-B acute lymphoblastic leukemia. Relapse can be associated with a lineage switch from acute lymphoblastic to acute myeloid leukemia, resulting in poor clinical outcomes caused by resistance to chemotherapies and immunotherapies. In this study, the myeloid relapses shared oncogene fusion breakpoints with their matched lymphoid presentations and originated from various differentiation stages from immature progenitors through to committed B-cell precursors. Lineage switching is linked to substantial changes in chromatin accessibility and rewiring of transcriptional programs, including alternative splicing. These findings indicate that the execution and maintenance of lymphoid lineage differentiation is impaired. The relapsed myeloid phenotype is recurrently associated with the altered expression, splicing, or mutation of chromatin modifiers, including CHD4 coding for the ATPase/helicase of the nucleosome remodelling and deacetylation complex. Perturbation of CHD4 alone or in combination with other mutated epigenetic modifiers induces myeloid gene expression in MLL/AF4+ cell models, indicating that lineage switching in MLL/AF4 leukemia is driven and maintained by disrupted epigenetic regulation.

Published

2022

3. Efficient Elimination of Acute Myeloid Leukemia Cells through Inhibition of KDM4A in Combination with PARP Inhibition

Author

Monaghan, Laura, primary, Massett, Matthew Edward, additional, Bunschoten, Roderick P, additional, Pirvan, Petrisor Alin, additional, Hoose, Alex, additional, Park, Taeju, additional, Bittencourt-Silvestre, Joana, additional, Liskamp, Robert M J, additional, Jørgensen, Heather G, additional, and Huang, Xu, additional

Published

2019

4. Efficient Elimination of Acute Myeloid Leukemia Cells through Inhibition of KDM4A in Combination with PARP Inhibition

Author

Joana Bittencourt-Silvestre, Petrisor Alin Pirvan, Roderick P. Bunschoten, Rob M. J. Liskamp, Taeju Park, Xu Huang, Heather G. Jørgensen, Matthew E. Massett, Laura Monaghan, and Alex Hoose

Subjects

Myeloid, Chemistry, Cellular differentiation, Immunology, CD34, Myeloid leukemia, Cell Biology, Hematology, Biochemistry, Haematopoiesis, Cell killing, medicine.anatomical_structure, Cancer research, medicine, Progenitor cell, Stem cell

Abstract

Epigenetic therapies are emerging as a promising therapeutic strategy for acute myeloid leukemia (AML), exemplified by advances in the development of inhibitors targeting DNMT3A, DOT1L and LSD1. We identified an essential role for the H3K9me3 histone demethylase, KDM4A, in maintaining AML cell survival with genetic depletion of KDM4A having no effect on normal hematopoiesis. Therefore, we hypothesise KDM4A inhibition may represent a novel and effective strategy to treat AML. To address this, we developed a series of novel KDM4A inhibitors (KDM4Ai), based on the structure of pan inhibitor IOX1, and fully characterised their functional potential in AML cells representing major molecular subtypes, and primary patient blasts in comparison with healthy donor cells, as single agents or in combination with other anti-cancer drugs. To evaluate these compounds in physiological conditions, we utilised a stromal co-culture system mimicking the bone marrow microenvironment. Furthermore, we carried out global transcriptomic profiling by RNA-seq to elucidate the molecular consequences responsible for KDM4Ai induced leukemic killing. As a mono-therapy, KDM4Ai induced leukemic cell differentiation and apoptosis in a broad spectrum of human AML cells, with an IC50 of 3.2µM ± 0.2 in MLL-AF9 driven THP1 cells after 48hr treatment (n=3), similar efficacy was observed in other human AML cell lines (n= ≤3) including Kasumi1 (2.69µM ± 0.1) , OCI-AML3 (4.9 µM ± 1.0) and MOLM13 (1.7 µM ± 0.7) and in primary patient blasts (3.8µM). A complete removal of colony forming potential was observed upon treatment (n = 2). The global expression of KDM4A's established substrate, H3K9me3 was upregulated by immunofluorescence and transcriptional changes in a 9-gene signature identified previously as direct KDM4A downstream targets, is indicative of an on-target effect by KDM4Ai. Importantly, KDM4Ai specifically reduced CD34+leukemic stem cell enriched population ( reduced by 6%). In contrast, a non significant reduction was observed on donor CD34+hematopoietic stem and progenitor cells proliferation and apoptosis suggesting a therapeutic window. Cytoprotection provided by stromal co-culture in both AML cell lines and primary samples resulted in a 50% decrease in apoptotic cells with maintenance of the CD34+compartment . Taking these results into account we identify importance of the microenvironment in drug mechanism and resistance. To better understand the mechanism driving this selective anti-leukemic effect, we performed transcriptomic analysis on KDM4Ai treated THP1 cells (n=3). Corroborating the differentiation phenotype, pathway analysis showed an enrichment of IL4 & IL13 signalling (Enrichment score (ES) = - 0.53, q value = 0.025), and neutrophil degranulation (Enrichment score (ES) = - 0.51, q value = 0.025), this was accompanied by significant up-regulation of DNA damage response pathways (ES = 0.66, q value = 0.025) . These results were confirmed in AML cell lines, displaying accumulation > 20% of γH2AX by intracellular flow cytometry and PARP cleavage by western blot following treatment. Based on these results we hypothesised that KDM4Ai may sensitise leukemic cells to DNA damage pathway inhibitors, such as PARP inhibitors (PARPi) (n = ≤3). While standard chemotherapies, such as cytarabine and azacitidine, in combination with KDM4Ai showed a largely additive effect, a dual inhibition of KDM4Ai at 3mM with 5mM olaparib (PARPi), exhibited a Combination Index of ~0.69 with a decrease in proliferation (>15% reduction) and increased apoptosis (>20%) in MLLr-AML cell lines compared with KDM4Ai alone (p=0.005). This effect was corroborated ex vivo using cells isolated from a patient derived xenograft model of MLL-AF10 (n=3). Taken together these results suggest a synergistic leukemic cell killing and have subsequently been subjected to global RNA-seq to confirm the detailed molecular mechanism underlying the synergistic effect. Pharmacological inhibition of KDM4A using novel compounds effectively eliminated leukemic cells sparing normal hematopoietic cells with a synthetic lethality observed through combination with PARPi offering a promising therapeutic strategy in AML. Our data further support the essential role for KDM4A in myeloid oncogenesis, promoting future clinical evaluation of KDM4Ai its associated downstream targets as potential tractable therapeutic vulnerabilities in AML. Disclosures No relevant conflicts of interest to declare.

Published

2019

5. Circulating CD34+ progenitor cell frequency is associated with clinical and genetic factors

Author

Stanley Y. Shaw, Rachael J. Klein, Yin Ge, Basma Hashmi, Ying A. Wang, Martin G. Larson, Susan Cheng, Ramachandran S. Vasan, Elizabeth L. McCabe, Christopher J. O'Donnell, Roderick P. Martin, Thomas J. Wang, Julius S. Ngwa, Kenneth S. Cohen, and L. Adrienne Cupples

Subjects

Male, medicine.medical_treatment, Immunology, CD34, Antigens, CD34, Genome-wide association study, Hematopoietic stem cell transplantation, Biology, Biochemistry, Framingham Heart Study, Risk Factors, Biomarkers, Tumor, Prevalence, medicine, Humans, Sex Distribution, Progenitor cell, Aged, Oligonucleotide Array Sequence Analysis, Transplantation, Chromosomes, Human, Pair 11, Tumor Suppressor Proteins, Smoking, Cell Biology, Hematology, Middle Aged, Hematopoietic Stem Cells, Hematopoiesis, DNA-Binding Proteins, Haematopoiesis, Massachusetts, Cardiovascular Diseases, Chromosomes, Human, Pair 1, Phosphopyruvate Hydratase, Female, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Stem cell, Carrier Proteins, Genome-Wide Association Study

Abstract

Circulating blood CD34(+) cells consist of hematopoietic stem/progenitor cells, angiogenic cells, and endothelial cells. In addition to their clinical use in hematopoietic stem cell transplantation, CD34(+) cells may also promote therapeutic neovascularization. Therefore, understanding the factors that influence circulating CD34(+) cell frequency has wide implications for vascular biology in addition to stem cell transplantation. In the present study, we examined the clinical and genetic characteristics associated with circulating CD34(+) cell frequency in a large, community-based sample of 1786 Framingham Heart Study participants.Among subjects without cardiovascular disease (n = 1595), CD34(+) frequency was inversely related to older age, female sex, and smoking. CD34(+) frequency was positively related to weight, serum total cholesterol, and statin therapy. Clinical covariates accounted for 6.3% of CD34(+) variability. CD34(+) frequency was highly heritable (h(2) = 54%; P < .0001). Genome-wide association analysis of CD34(+) frequency identified suggestive associations at several loci, including OR4C12 (chromosome 11; P = 6.7 × 10(-7)) and ENO1 and RERE (chromosome 1; P = 8.8 × 10(-7)). CD34(+) cell frequency is reduced in older subjects and is influenced by environmental factors including smoking and statin use. CD34(+) frequency is highly heritable. The results of the present study have implications for therapies that use CD34(+) cell populations and support efforts to better understand the genetic mechanisms that underlie CD34(+) frequency.

Published

2013

6. Prostaglandin E2 stimulates cAMP signaling and resensitizes human leukemia cells to glucocorticoid-induced cell death

Author

Roderick, Justine E., Gallagher, Kayleigh M., Murphy, Leonard C., O’Connor, Kevin W., Tang, Katherine, Zhang, Boyao, Brehm, Michael A., Greiner, Dale L., Yu, Jun, Zhu, Lihua Julie, Green, Michael R., and Kelliher, Michelle A.

Abstract

Glucocorticoid (GC) resistance remains a clinical challenge in pediatric acute lymphoblastic leukemia where response to GC is a reliable prognostic indicator. To identify GC resistance pathways, we conducted a genome-wide, survival-based, short hairpin RNA screen in murine T-cell acute lymphoblastic leukemia (T-ALL) cells. Genes identified in the screen interfere with cyclic adenosine monophosphate (cAMP) signaling and are underexpressed in GC-resistant or relapsed ALL patients. Silencing of the cAMP-activating Gnas gene interfered with GC-induced gene expression, resulting in dexamethasone resistance in vitro and in vivo. We demonstrate that cAMP signaling synergizes with dexamethasone to enhance cell death in GC-resistant human T-ALL cells. We find the E prostanoid receptor 4 expressed in T-ALL samples and demonstrate that prostaglandin E2 (PGE2) increases intracellular cAMP, potentiates GC-induced gene expression, and sensitizes human T-ALL samples to dexamethasone in vitro and in vivo. These findings identify PGE2 as a target for GC resensitization in relapsed pediatric T-ALL.

Published

2021

7. Prostaglandin E2stimulates cAMP signaling and resensitizes human leukemia cells to glucocorticoid-induced cell death

Author

Roderick, Justine E., Gallagher, Kayleigh M., Murphy, Leonard C., O'Connor, Kevin W., Tang, Katherine, Zhang, Boyao, Brehm, Michael A., Greiner, Dale L., Yu, Jun, Zhu, Lihua Julie, Green, Michael R., and Kelliher, Michelle A.

Abstract

Glucocorticoid (GC) resistance remains a clinical challenge in pediatric acute lymphoblastic leukemia where response to GC is a reliable prognostic indicator. To identify GC resistance pathways, we conducted a genome-wide, survival-based, short hairpin RNA screen in murine T-cell acute lymphoblastic leukemia (T-ALL) cells. Genes identified in the screen interfere with cyclic adenosine monophosphate (cAMP) signaling and are underexpressed in GC-resistant or relapsed ALL patients. Silencing of the cAMP-activating Gnasgene interfered with GC-induced gene expression, resulting in dexamethasone resistance in vitro and in vivo. We demonstrate that cAMP signaling synergizes with dexamethasone to enhance cell death in GC-resistant human T-ALL cells. We find the E prostanoid receptor 4 expressed in T-ALL samples and demonstrate that prostaglandin E2(PGE2) increases intracellular cAMP, potentiates GC-induced gene expression, and sensitizes human T-ALL samples to dexamethasone in vitro and in vivo. These findings identify PGE2as a target for GC resensitization in relapsed pediatric T-ALL.

Published

2021

8. Altered microRNA expression links IL6 and TNF-induced inflammaging with myeloid malignancy in humans and mice

Author

Grants, Jennifer M., Wegrzyn, Joanna, Hui, Tony, O’Neill, Kieran, Shadbolt, Marion, Knapp, David J. H. F., Parker, Jeremy, Deng, Yu, Gopal, Aparna, Docking, T. Roderick, Fuller, Megan, Li, Jenny, Boldin, Mark, Eaves, Connie J., Hirst, Martin, and Karsan, Aly

Abstract

Aging is associated with significant changes in the hematopoietic system, including increased inflammation, impaired hematopoietic stem cell (HSC) function, and increased incidence of myeloid malignancy. Inflammation of aging (“inflammaging”) has been proposed as a driver of age-related changes in HSC function and myeloid malignancy, but mechanisms linking these phenomena remain poorly defined. We identified loss of miR-146a as driving aging-associated inflammation in AML patients. miR-146a expression declined in old wild-type mice, and loss of miR-146a promoted premature HSC aging and inflammation in young miR-146a–null mice, preceding development of aging-associated myeloid malignancy. Using single-cell assays of HSC quiescence, stemness, differentiation potential, and epigenetic state to probe HSC function and population structure, we found that loss of miR-146a depleted a subpopulation of primitive, quiescent HSCs. DNA methylation and transcriptome profiling implicated NF-κB, IL6, and TNF as potential drivers of HSC dysfunction, activating an inflammatory signaling relay promoting IL6 and TNF secretion from mature miR-146a−/− myeloid and lymphoid cells. Reducing inflammation by targeting Il6 or Tnf was sufficient to restore single-cell measures of miR-146a−/− HSC function and subpopulation structure and reduced the incidence of hematological malignancy in miR-146a−/− mice. miR-146a−/− HSCs exhibited enhanced sensitivity to IL6 stimulation, indicating that loss of miR-146a affects HSC function via both cell-extrinsic inflammatory signals and increased cell-intrinsic sensitivity to inflammation. Thus, loss of miR-146a regulates cell-extrinsic and -intrinsic mechanisms linking HSC inflammaging to the development of myeloid malignancy.

Published

2020

9. Hemopexin deficiency promotes acute kidney injury in sickle cell disease.

Author

Ofori-Acquah, Solomon F, Hazra, Rimi, Orikogbo, Oluwaseun O, Crosby, Danielle, Flage, Bethany, Ackah, Ezekiel B, Lenhart, Diane, Tan, Roderick J, Vitturi, Dario A, Paintsil, Vivian, Owusu-Dabo, Ellis, and Ghosh, Samit

Abstract

Acute kidney injury (AKI) is a major clinical concern in sickle cell disease (SCD). Clinical evidence suggests that red cell alarmins may cause AKI in SCD, however, the sterile inflammatory process involved has hitherto not been defined. We discovered that hemopexin deficiency in SCD is associated with a compensatory increase in α-1-microglobulin (A1M), resulting in an up to 10-fold higher A1M-to-hemopexin ratio in SCD compared with healthy controls. The A1M-to-hemopexin ratio is associated with markers of hemolysis and AKI in both humans and mice with SCD. Studies in mice showed that excess heme is directed to the kidneys in SCD in a process involving A1M causing AKI, whereas excess heme in controls is transported to the liver as expected. Using genetic and bone marrow chimeric tools, we confirmed that hemopexin deficiency promotes AKI in sickle mice under hemolytic stress. However, AKI was blocked when hemopexin deficiency in sickle mice was corrected with infusions of purified hemopexin prior to the induction of hemolytic stress. This study identifies acquired hemopexin deficiency as a risk factor of AKI in SCD and hemopexin replacement as a potential therapy.

Published

2020

10. Pretransplant MRD detection of fusion transcripts is strongly prognostic in KMT2A-rearranged acute myeloid leukemia

Author

Loo, Sun, Potter, Nicola, Ivey, Adam, O’Nions, Jenny, Moon, Roderick, Jovanovic, Jelena, Fong, Chun Y., Anstee, Natasha S., Tiong, Ing Soo, Othman, Jad, Chua, Chong Chyn, Renshaw, Hanna, Baker, Robert, Fleming, Shaun, Russell, Nigel H., Ritchie, David, Bajel, Ashish, Hou, Hsin-An, Dillon, Richard, and Wei, Andrew H.

Abstract

Pretransplant detection of KMT2Ar measurable residual disease ≥0.001% by quantitative polymerase chain reaction was associated with significantly inferior posttransplant survival (2-year relapse-free survival 17% vs 59%; P = .001) and increased 2-year cumulative incidence of relapse (75% vs 25%, P = .0004).

Published

2024

11. Heme-induced loss of renovascular endothelial protein C receptor promotes chronic kidney disease in sickle mice

Author

Chen, Qiyang, Hazra, Rimi, Crosby, Danielle, Lenhart, Diane, Lenhart, Shane C., Mondal, Paritosh, Zhang, Yingze, Nouraie, Seyed M., Tan, Roderick J., Esmon, Charles T., Rao, L. Vijay Mohan, Kim, Kang, and Ghosh, Samit

Abstract

•Circulating heme sheds EPCR from the renovascular endothelium, leading to sickle CKD.•Plasma EPCR levels were elevated in patients with SCD and CKD.

Published

2024

12. Transient CDK9 Inhibition with AZD4573 Effectively Induces Apoptosis in Burkitt Lymphoma As a Monotherapy in Pre-Clinical Models

Author

Potter, Danielle S, Ott, India, Saeh, Jamal, Fawell, Stephen, Drew, Lisa, and Roderick-Richardson, Justine

Abstract

Burkitt Lymphoma (BL) accounts for almost two thirds of all B-cell non-Hodgkin lymphoma cases in children and adolescents. It may affect the jaw, bones of the face, bowel, kidney, ovaries and in some cases spread to the central nervous system. Nearly all types of BL are characterized by c-MYC gene translocation of chromosome 8 with immunoglobulin genes at chromosome 2, 14 or 22 resulting in high levels of the transcription factor. Recently, MCL-1 was shown to be overexpressed in BL and is a critical survival factor in pre-clinical BL models using genetic and chemical approaches.

Published

2023

13. Real-World Treatment Patterns Among Patients with Acute Lymphoblastic Leukemia (ALL) or Lymphoblastic Lymphoma (LBL) Who Initiated an Asparaginase Treatment after the Approval of Recombinant Erwinia(Rylaze)

Author

Maese, Luke, Latimer, Helen, Nerney, Katherine, Cao, Yanyan, Stricherz, Melisa, Murphy, Roderick, Chen, Abby, Su, Wenqing, Ni, Weiyi, Prince, Patricia, and Poole, Elizabeth

Abstract

Introduction

Published

2023

14. Establishing an AML Ex VivoPlatform to Generate Physiologically Relevant Models

Author

Tavana, Omid, Willis, Brandon, Liu, Siyu, Christie, Amanda, Andersen, Courtney L, Roderick-Richardson, Justine, Robichaud, Amanda, Prickett, Laura, Reimer, Corinne, and Drew, Lisa

Abstract

Acute myelogenous leukemia (AML) comprises a highly polyclonal and heterogeneous disease containing leukemic stem cells, progenitors, and differentiated blasts. Despite advances in treatment, the long-term relapse-free survival for AML remains poor. Due to complex mutational profiles and highly divergent subtypes in AML, the use of physiologically relevant, patient-derived models is needed. Traditional cell line models of AML almost exclusively represent differentiated blasts, are homogenous in clonality, and often do not encompass major genetic subtypes. To address these gaps, we have established a culture system that supports the growth of higher-order AML samples ex vivo.

Published

2023

15. Bendamustine Is Less Toxic Than Fludarabine-Cyclophosphamide-Based Lymphodepletion before CD28-Costimulated CART19 through Reduced Inflammatory Cytokines

Author

Ghilardi, Guido, Paruzzo, Luca, Svoboda, Jakub, Chong, Elise A., Shestov, Alexander, Chen, Linhui, Cohen, Ivan J, Gabrielli, Giulia, Nasta, Dwivedy S., Porazzi, Patrizia, Landsburg, Daniel J., Gerson, James, Carter, Jordan, Barta, Stefan K., Yelton, Rebecca, Pajarillo, Raymone, White, Griffin W, Ballard, Hatcher, Weber, Elizabeth, Napier, Ellen B., Chong, Emeline R., Fraietta, Joseph A, Garfall, Alfred L., Porter, David L., Milone, Michael C., O'Connor, Roderick, Schuster, Stephen J., and Ruella, Marco

Abstract

Introduction:Lymphodepletion (LD) is an integral component of anti-CD19 chimeric antigen receptor T cell (CART19) immunotherapy, creating the proper environment and cytokine milieu for CART engraftment and function. We previously demonstrated that bendamustine (Benda) LD is as effective as standard fludarabine and cyclophosphamide (Flu/Cy) LD prior to 4-1BB-costimulated tisagenlecleucel but is characterized by significantly reduced cytokine-release syndrome (CRS), neurotoxicity (ICANS), and hematological toxicities. However, whether Benda LD is also effective and safe in CD28 costimulated CART19, and the mechanism for the reduced toxicities associated with Benda LD remain unknown.

Published

2023

16. Real-World Evidence in the United States (US) of the Impact of Bridging Therapy Prior to Axicabtagene Ciloleucel (Axi-Cel) for the Treatment of Relapsed or Refractory Large B-Cell Lymphoma (R/R LBCL)

Author

Cook, Michael Roderick, Shouval, Roni, Perales, Miguel-Angel, Bezerra, Evandro, Niu, Alex, Dahiya, Saurabh, Nastoupil, Loretta J., Jacobson, Caron A., Budde, L. Elizabeth, Olson, Amanda L., Logan, Brent R., Hu, Zhen-Huan, Wang, Hai-Lin, Luo, Zhong-Cheng, Kim, Jenny J., Smith, Harry W., Lee, Andrew, Sun, Fang, Pasquini, Marcelo, and Locke, Frederick L.

Abstract

Introduction:Axi-cel utilization expanded after demonstration of superior event-free survival in patients (pts) with early relapsed or primary refractory LBCL (Locke, et al. NEJM.2022) and was reinforced by improved overall survival (OS) among these pts (Westin, et al. NEJM. 2023). Despite increased demand, limited data exist on the impact of bridging therapies (BT) on pt outcomes. Thus, BT use between leukapheresis and lymphodepletion (LD) is largely at the discretion of treating physicians. Here, we assessed the impact of BT on effectiveness and safety outcomes after axi-cel.

Published

2023

17. Pre-Transplant Measurable Residual Disease (MRD) Detection of KMT2A-rearranged Acute Myeloid Leukemia Is Strongly Associated with Inferior Post-Transplant Outcome

Author

Loo, Sun, Potter, Nicola, Ivey, Adam, O'Nions, Jenny, Moon, Roderick, Fong, Chun Yew, Anstee, Natasha, Tiong, Ing Soo, Chua, Chong Chyn, Othman, Jad, Renshaw, Hannah, Baker, Robert, Russell, Nigel H., Bajel, Ashish, Hou, Hsin-An, Dillon, Richard, and Wei, Andrew H.

Abstract

Introduction

Published

2023

18. AZD4573 in Combination with CHOP Increases Combination Benefit in Preclinical Peripheral T-Cell Lymphomas Models

Author

Potter, Danielle S, Ott, India, Saeh, Jamal, Olsson, Richard, Fawell, Stephen, Drew, Lisa, and Roderick-Richardson, Justine

Abstract

Peripheral T-cell Lymphoma (pTCL) make up about 10% of non-Hodgkin's lymphoma in the United States. Patients with relapsed/refractory pTCL have limited treatment options and poor outcomes to standard of care therapy. Current standard of care for pTCL revolves around the chemotherapy regimens CHOP/E and for CD30-postive pTCLs, brentuximab vedotin is approved.

Published

2023

19. Dormancy Is a Feature of Therapy Resistant Mouse and Human Leukemia-Initiating Cells in T-ALL

Author

O'Connor, Kevin, Kishimoto, Kensei, Kuzma, Irena, Wagner, Kelsey, Selway, Jonathan, Gallagher, Kayleigh M, Roderick, Justine E., Curtis, David J., Tremblay, Cedric, and Kelliher, Michelle A

Published

2022

20. P53 Overexpression Predicts Poor Outcome in High-Grade B-Cell Lymphoma - a Comparative Analysis of Aggressive B-Cell Lymphomas

Author

Cook, Michael Roderick, Culfaci, Sumeyye, Mete, Mihriye, Ozdemirli, Metin, and Dunleavy, Kieron

Published

2022

21. Improved Survival Outcomes for Intensive Versus Standard Chemoimmunotherapy in Primary Mediastinal B-Cell Lymphoma: A Meta-Analysis of 4068 Patients

Author

Cook, Michael Roderick, Williams, Lacey S., Dorris, Scott C, Kolm, Paul, and Dunleavy, Kieron

Published

2022

22. Circulating CD34+ progenitor cell frequency is associated with clinical and genetic factors

Author

Cohen, Kenneth S., primary, Cheng, Susan, additional, Larson, Martin G., additional, Cupples, L. Adrienne, additional, McCabe, Elizabeth L., additional, Wang, Ying A., additional, Ngwa, Julius S., additional, Martin, Roderick P., additional, Klein, Rachael J., additional, Hashmi, Basma, additional, Ge, Yin, additional, O'Donnell, Christopher J., additional, Vasan, Ramachandran S., additional, Shaw, Stanley Y., additional, and Wang, Thomas J., additional

Published

2013

23. RUNX1 is required for oncogenic Myband Mycenhancer activity in T-cell acute lymphoblastic leukemia

Author

Choi, AHyun, Illendula, Anuradha, Pulikkan, John A., Roderick, Justine E., Tesell, Jessica, Yu, Jun, Hermance, Nicole, Zhu, Lihua Julie, Castilla, Lucio H., Bushweller, John H., and Kelliher, Michelle A.

Abstract

The gene encoding the RUNX1 transcription factor is mutated in a subset of T-cell acute lymphoblastic leukemia (T-ALL) patients, and RUNX1mutations are associated with a poor prognosis. These mutations cluster in the DNA-binding Runt domain and are thought to represent loss-of-function mutations, indicating that RUNX1 suppresses T-cell transformation. RUNX1 has been proposed to have tumor suppressor roles in T-cell leukemia homeobox 1/3–transformed human T-ALL cell lines and NOTCH1 T-ALL mouse models. Yet, retroviral insertional mutagenesis screens identify RUNXgenes as collaborating oncogenes in MYC-driven leukemia mouse models. To elucidate RUNX1 function(s) in leukemogenesis, we generated Tal1/Lmo2/Rosa26-CreERT2Runx1f/fmice and examined leukemia progression in the presence of vehicle or tamoxifen. We found that Runx1deletion inhibits mouse leukemic growth in vivo and that RUNXsilencing in human T-ALL cells triggers apoptosis. We demonstrate that a small molecule inhibitor, designed to interfere with CBFβ binding to RUNX proteins, impairs the growth of human T-ALL cell lines and primary patient samples. We demonstrate that a RUNX1 deficiency alters the expression of a crucial subset of TAL1- and NOTCH1-regulated genes, including the MYBand MYConcogenes, respectively. These studies provide genetic and pharmacologic evidence that RUNX1 has oncogenic roles and reveal RUNX1 as a novel therapeutic target in T-ALL.

Published

2017

24. RUNX1 is required for oncogenic Myb and Myc enhancer activity in T-cell acute lymphoblastic leukemia

Author

Choi, AHyun, Illendula, Anuradha, Pulikkan, John A., Roderick, Justine E., Tesell, Jessica, Yu, Jun, Hermance, Nicole, Zhu, Lihua Julie, Castilla, Lucio H., Bushweller, John H., and Kelliher, Michelle A.

Abstract

The gene encoding the RUNX1 transcription factor is mutated in a subset of T-cell acute lymphoblastic leukemia (T-ALL) patients, and RUNX1 mutations are associated with a poor prognosis. These mutations cluster in the DNA-binding Runt domain and are thought to represent loss-of-function mutations, indicating that RUNX1 suppresses T-cell transformation. RUNX1 has been proposed to have tumor suppressor roles in T-cell leukemia homeobox 1/3–transformed human T-ALL cell lines and NOTCH1 T-ALL mouse models. Yet, retroviral insertional mutagenesis screens identify RUNX genes as collaborating oncogenes in MYC-driven leukemia mouse models. To elucidate RUNX1 function(s) in leukemogenesis, we generated Tal1/Lmo2/Rosa26-CreERT2Runx1f/f mice and examined leukemia progression in the presence of vehicle or tamoxifen. We found that Runx1 deletion inhibits mouse leukemic growth in vivo and that RUNX silencing in human T-ALL cells triggers apoptosis. We demonstrate that a small molecule inhibitor, designed to interfere with CBFβ binding to RUNX proteins, impairs the growth of human T-ALL cell lines and primary patient samples. We demonstrate that a RUNX1 deficiency alters the expression of a crucial subset of TAL1- and NOTCH1-regulated genes, including the MYB and MYC oncogenes, respectively. These studies provide genetic and pharmacologic evidence that RUNX1 has oncogenic roles and reveal RUNX1 as a novel therapeutic target in T-ALL.

Published

2017

25. CD34+ Circulating Progenitor Cell Frequency Is Highly Heritable

Author

Cohen, Kenneth S., primary, Cheng, Susan, additional, Larson, Martin G., additional, Cupples, L. Adrienne, additional, McCabe, Elizabeth L., additional, Wang, Ying A., additional, Martin, Roderick P., additional, Klein, Rachael J., additional, Hashmi, Basma, additional, O'Donnell, Christopher J., additional, Ramachandran, Vasan S., additional, Shaw, Stanley Y., additional, and Wang, Thomas J., additional

Published

2010

26. CD34+ Circulating Progenitor Cell Frequency Is Highly Heritable

Author

Elizabeth L. McCabe, Thomas J. Wang, Stanley Y. Shaw, Rachael J. Klein, Vasan S. Ramachandran, Kenneth S. Cohen, L. Adrienne Cupples, Basma Hashmi, Martin G. Larson, Christopher J. O'Donnell, Roderick P. Martin, Ying A. Wang, and Susan Cheng

Subjects

medicine.medical_specialty, education.field_of_study, Framingham Risk Score, medicine.medical_treatment, Immunology, Population, CD34, Cell Biology, Hematology, Hematopoietic stem cell transplantation, Biology, medicine.disease, Biochemistry, Transplantation, Endocrinology, Internal medicine, Diabetes mellitus, medicine, Stem cell, Progenitor cell, education

Abstract

Abstract 4309 Background: Circulating blood CD34+ cells are a heterogeneous population of cells comprising hematopoietic stem/progenitor cells, circulating angiogenic cells, and a small population of endothelial/endothelial progenitor cells. CD34+ cells are used clinically for hematopoietic stem cell transplants and have also been studied as cellular biomarkers of response to anti-angiogenic therapy in clinical trials and as markers of cardiovascular disease (CVD) risk. Understanding factors that regulate circulating CD34+ cell frequency has important implications for the fields of stem cell transplantation, oncology, cardiology, and vascular biology. Therefore, we initiated a large, community-based cohort study to examine clinical characteristics associated with circulating CD34+ cell frequency, as well as to define the heritable contribution to this phenotype. Methods: We assessed CD34+ cell frequency in 1,786 participants attending the eighth examination cycle (2005-2008) of the Framingham Offspring Study (mean age 66 years, 54% women). 1,595 participants had no known history of cardiovascular disease. Participants underwent a standardized medical examination and laboratory assessment of cardiovascular risk factors. These included systolic and diastolic blood pressure, body mass index, glucose, total and high-density lipoprotein, cholesterol, triglycerides, medications (lipid-lowering, antihypertensive, and hormone replacement therapies), cigarette smoking, and diabetes (defined as a fasting glucose >126 mg/dL or the use of medications to treat diabetes). For CD34+ cell phenotyping, buffy coat samples were diluted with PBS and mononuclear cells isolated by Ficoll density-gradient centrifugation. Mononuclear cells were stained with an anti-human CD34 antibody and cells were analyzed by FACS analysis (Becton-Dickenson FACSCalibur). Data was analyzed as the frequency of CD34+ events within the cellular gate. Results: In multivariable-adjusted analyses adjusting for familial (sibling) correlations, CD34+ frequency was inversely associated with older age, female gender, and cigarette smoking. CD34+ frequency was positively associated with weight, total cholesterol, and statin therapy. Framingham risk score was inversely correlated with CD34+ frequency in men (coefficient -0.037, P=0.004) but not in women (coefficient 0.08, P=0.59). CD34+ frequency was not associated with prevalent CVD (P=0.69). Notably, the clinical covariates associated with CD34+ frequency only accounted for 6.3% of CD34+ variability. Therefore, we performed an assessment of CD34+ frequency as a heritable trait. Using variance component methods implemented in SOLAR on sibship-pair and spouse-pair data, the estimated heritability (h2) for CD34+ cell variability was 53.9 +/− 9.2 % (mean +/− standard error) in age- and sex-adjusted analyses and was highly statistically significant (P Disclosures: Martin: Genzyme: Employment.

Published

2010

27. A recurrent 11q aberration pattern characterizes a subset of MYC-negative high-grade B-cell lymphomas resembling Burkitt lymphoma

Author

Salaverria, Itziar, Martin-Guerrero, Idoia, Wagener, Rabea, Kreuz, Markus, Kohler, Christian W., Richter, Julia, Pienkowska-Grela, Barbara, Adam, Patrick, Burkhardt, Birgit, Claviez, Alexander, Damm-Welk, Christine, Drexler, Hans G., Hummel, Michael, Jaffe, Elaine S., Küppers, Ralf, Lefebvre, Christine, Lisfeld, Jasmin, Löffler, Markus, Macleod, Roderick A. F., Nagel, Inga, Oschlies, Ilske, Rosolowski, Maciej, Russell, Robert B., Rymkiewicz, Grzegorz, Schindler, Detlev, Schlesner, Matthias, Scholtysik, René, Schwaenen, Carsten, Spang, Rainer, Szczepanowski, Monika, Trümper, Lorenz, Vater, Inga, Wessendorf, Swen, Klapper, Wolfram, and Siebert, Reiner

Abstract

The genetic hallmark of Burkitt lymphoma (BL) is the t(8;14)(q24;q32) and its variants leading to activation of the MYC oncogene. It is a matter of debate whether true BL without MYC translocation exists. Here, we identified 59 lymphomas concordantly called BL by 2 gene expression classifiers among 753 B-cell lymphomas. Only 2 (3%) of these 59 molecular BL lacked a MYC translocation, which both shared a peculiar pattern of chromosome 11q aberration characterized by interstitial gains including 11q23.2-q23.3 and telomeric losses of 11q24.1-qter. We extended our analysis to 17 MYC-negative high-grade B-cell lymphomas with a similar 11q aberration and showed this aberration to be recurrently associated with morphologic and clinical features of BL. The minimal region of gain was defined by high-level amplifications in 11q23.3 and associated with overexpression of genes including PAFAH1B2 on a transcriptional and protein level. The recurrent region of loss contained a focal homozygous deletion in 11q24.2-q24.3 including the ETS1 gene, which was shown to be mutated in 4 of 16 investigated cases. These findings indicate the existence of a molecularly distinct subset of B-cell lymphomas reminiscent of BL, which is characterized by deregulation of genes in 11q.

Published

2014

28. c-Myc inhibition prevents leukemia initiation in mice and impairs the growth of relapsed and induction failure pediatric T-ALL cells

Author

Roderick, Justine E., Tesell, Jessica, Shultz, Leonard D., Brehm, Michael A., Greiner, Dale L., Harris, Marian H., Silverman, Lewis B., Sallan, Stephen E., Gutierrez, Alejandro, Look, A. Thomas, Qi, Jun, Bradner, James E., and Kelliher, Michelle A.

Abstract

Although prognosis has improved for children with T-cell acute lymphoblastic leukemia (T-ALL), 20% to 30% of patients undergo induction failure (IF) or relapse. Leukemia-initiating cells (LICs) are hypothesized to be resistant to chemotherapy and to mediate relapse. We and others have shown that Notch1 directly regulates c-Myc, a known regulator of quiescence in stem and progenitor populations, leading us to examine whether c-Myc inhibition results in efficient targeting of T-ALL–initiating cells. We demonstrate that c-Myc suppression by small hairpin RNA or pharmacologic approaches prevents leukemia initiation in mice by eliminating LIC activity. Consistent with its anti-LIC activity in mice, treatment with the BET bromodomain BRD4 inhibitor JQ1 reduces C-MYC expression and inhibits the growth of relapsed and IF pediatric T-ALL samples in vitro. These findings demonstrate a critical role for c-Myc in LIC maintenance and provide evidence that MYC inhibition may be an effective therapy for relapsed/IF T-ALL patients.

Published

2014

29. A vasculo-protective circuit centered on lipoxin A4and aspirin-triggered 15-epi-lipoxin A4operative in murine microcirculation

Author

Brancaleone, Vincenzo, Gobbetti, Thomas, Cenac, Nicolas, le Faouder, Pauline, Colom, Bartomeu, Flower, Roderick J., Vergnolle, Nathalie, Nourshargh, Sussan, and Perretti, Mauro

Abstract

Endogenous protective pathways mitigate the overshooting of inflammation after sterile or infectious injury. Here we report that formyl peptide receptor 2 (Fpr2/3) null mice display a major phenotype with exacerbated vascular inflammation observed postischemia reperfusion (IR) injury of the mesenteric artery, characterized by marked neutrophil adhesion and extravasation as visualized by intravital microscopy. Analysis of endogenous agonists for Fpr2/3 revealed that lipoxin A4(LXA4) was generated by platelet/neutrophil aggregates during ischemia: this cellular response was attenuated in Fpr2/3−/−mice; hence, LXA4levels were lower after 30 minutes' ischemia, and associated with augmented vascular inflammation in the reperfusion (45-180 minutes) phase. Exogenous delivery of LXA4attenuated IR-mediated inflammation in Fpr2/3+/+but not Fpr2/3−/−mice; conversely, an Fpr2/3 antagonist skewed the vascular phenotype of Fpr2/3+/+mice to that of Fpr2/3−/−animals. Such LXA4-based circuit could be activated by aspirin (30-100 mg/kg), which triggered formation of 15-epi-LXA4in wild-type mice, yet it was effective in Fpr2/3−/−mice. In summary, we propose that during ischemia, neutrophil Fpr2/3 controls platelet/neutrophil aggregates with the rapid generation of circulating LXA4, which in turn modulates downstream vascular inflammatory responses evident during the reperfusion phase.

Published

2013

30. A vasculo-protective circuit centered on lipoxin A4 and aspirin-triggered 15-epi-lipoxin A4 operative in murine microcirculation

Author

Brancaleone, Vincenzo, Gobbetti, Thomas, Cenac, Nicolas, le Faouder, Pauline, Colom, Bartomeu, Flower, Roderick J., Vergnolle, Nathalie, Nourshargh, Sussan, and Perretti, Mauro

Abstract

Endogenous protective pathways mitigate the overshooting of inflammation after sterile or infectious injury. Here we report that formyl peptide receptor 2 (Fpr2/3) null mice display a major phenotype with exacerbated vascular inflammation observed postischemia reperfusion (IR) injury of the mesenteric artery, characterized by marked neutrophil adhesion and extravasation as visualized by intravital microscopy. Analysis of endogenous agonists for Fpr2/3 revealed that lipoxin A4 (LXA4) was generated by platelet/neutrophil aggregates during ischemia: this cellular response was attenuated in Fpr2/3−/− mice; hence, LXA4 levels were lower after 30 minutes’ ischemia, and associated with augmented vascular inflammation in the reperfusion (45-180 minutes) phase. Exogenous delivery of LXA4 attenuated IR-mediated inflammation in Fpr2/3+/+ but not Fpr2/3−/− mice; conversely, an Fpr2/3 antagonist skewed the vascular phenotype of Fpr2/3+/+ mice to that of Fpr2/3−/− animals. Such LXA4-based circuit could be activated by aspirin (30-100 mg/kg), which triggered formation of 15-epi-LXA4 in wild-type mice, yet it was effective in Fpr2/3−/− mice. In summary, we propose that during ischemia, neutrophil Fpr2/3 controls platelet/neutrophil aggregates with the rapid generation of circulating LXA4, which in turn modulates downstream vascular inflammatory responses evident during the reperfusion phase.

Published

2013

31. Circulating CD34+progenitor cell frequency is associated with clinical and genetic factors

Author

Cohen, Kenneth S., Cheng, Susan, Larson, Martin G., Cupples, L. Adrienne, McCabe, Elizabeth L., Wang, Ying A., Ngwa, Julius S., Martin, Roderick P., Klein, Rachael J., Hashmi, Basma, Ge, Yin, O'Donnell, Christopher J., Vasan, Ramachandran S., Shaw, Stanley Y., and Wang, Thomas J.

Abstract

Circulating blood CD34+cells consist of hematopoietic stem/progenitor cells, angiogenic cells, and endothelial cells. In addition to their clinical use in hematopoietic stem cell transplantation, CD34+cells may also promote therapeutic neovascularization. Therefore, understanding the factors that influence circulating CD34+cell frequency has wide implications for vascular biology in addition to stem cell transplantation. In the present study, we examined the clinical and genetic characteristics associated with circulating CD34+cell frequency in a large, community-based sample of 1786 Framingham Heart Study participants. Among subjects without cardiovascular disease (n = 1595), CD34+frequency was inversely related to older age, female sex, and smoking. CD34+frequency was positively related to weight, serum total cholesterol, and statin therapy. Clinical covariates accounted for 6.3% of CD34+variability. CD34+frequency was highly heritable (h2= 54%; P< .0001). Genome-wide association analysis of CD34+frequency identified suggestive associations at several loci, including OR4C12(chromosome 11; P= 6.7 × 10−7) and ENO1and RERE(chromosome 1; P= 8.8 × 10−7). CD34+cell frequency is reduced in older subjects and is influenced by environmental factors including smoking and statin use. CD34+frequency is highly heritable. The results of the present study have implications for therapies that use CD34+cell populations and support efforts to better understand the genetic mechanisms that underlie CD34+frequency.

Published

2013

32. The critical roles of platelet activation and reduced NO bioavailability in fatal pulmonary arterial hypertension in a murine hemolysis model

Author

Hu, Weiguo, Jin, Richard, Zhang, Jinyan, You, Tao, Peng, Zhihai, Ge, Xiaowen, Bronson, Roderick T., Halperin, Jose A., Loscalzo, Joseph, and Qin, Xuebin

Abstract

Pulmonary arterial hypertension (PAH) is suspected to be a strong mortality determinant of hemolytic disorders. However, direct contribution of acute intravascular hemolysis to fatal PAH has not been investigated. The roles of nitric oxide (NO) insufficiency and platelet activation in hemolysis-associated fatal PAH have been suspected but not been experimentally studied. We recently generated a unique intravascular hemolysis mouse model in which the membrane toxin, intermedilysin (ILY), exclusively lyses the erythrocytes of transgenically expressing human CD59 mice (ThCD59RBC), thereby inducing ILY-dose–dependent massive hemolysis. Using this murine hemolysis model, we found that the acute increase in pulmonary arterial pressure leading to right ventricle failure caused sudden death. Reduced NO bioavailability and massive platelet activation/aggregation leading to the formation of massive thrombosis specifically in the pulmonary microvasculature played the critical roles in pathogenesis of acute hemolysis-associated fatal PAH. Therapeutic interventions enhancing NO bioactivity or inhibiting platelet activation prevented sudden death or prolonged survival time via the suppression of the acute increase in pulmonary arterial pressure and improvement of right ventricle function. These findings further highlight the importance of the inhibition of platelet activation and the enhancement of NO bioavailability for the treatment and prevention of hemolysis-associated (fatal) PAH.

Published

2010

33. The mouse mutation “thrombocytopenia and cardiomyopathy” (trac) disrupts Abcg5: a spontaneous single gene model for human hereditary phytosterolemia/sitosterolemia

Author

Chase, Thomas H., Lyons, Bonnie L., Bronson, Roderick T., Foreman, Oded, Donahue, Leah Rae, Burzenski, Lisa M., Gott, Bruce, Lane, Priscilla, Harris, Belinda, Ceglarek, Uta, Thiery, Joachim, Wittenburg, Henning, Thon, Jonathan N., Italiano, Joseph E., Johnson, Kenneth R., and Shultz, Leonard D.

Abstract

The spontaneous mouse mutation “thrombocytopenia and cardiomyopathy” (trac) causes macrothrombocytopenia, prolonged bleeding times, anemia, leukopenia, infertility, cardiomyopathy, and shortened life span. Homozygotes show a 20-fold decrease in platelet numbers and a 3-fold increase in platelet size with structural alterations and functional impairments in activation and aggregation. Megakaryocytes in trac/trac mice are present in increased numbers, have poorly developed demarcation membrane systems, and have decreased polyploidy. The thrombocytopenia is not intrinsic to defects at the level of hematopoietic progenitor cells but is associated with a microenvironmental abnormality. The trac mutation maps to mouse chromosome 17, syntenic with human chromosome 2p21-22. A G to A mutation in exon 10 of the adenosine triphosphate (ATP)–binding cassette subfamily G, member 5 (Abcg5) gene, alters a tryptophan codon (UGG) to a premature stop codon (UAG). Crosses with mice doubly transgenic for the human ABCG5 and ABCG8 genes rescued platelet counts and volumes. ABCG5 and ABCG8 form a functional complex that limits dietary phytosterol accumulation. Phytosterolemia in trac/trac mice confirmed a functional defect in the ABCG5/ABCG8 transport system. The trac mutation provides a new clinically significant animal model for human phytosterolemia and provides a new means for studying the role of phytosterols in hematologic diseases and testing therapeutic interventions.

Published

2010

34. The mouse mutation “thrombocytopenia and cardiomyopathy” (trac)disrupts Abcg5: a spontaneous single gene model for human hereditary phytosterolemia/sitosterolemia

Author

Chase, Thomas H., Lyons, Bonnie L., Bronson, Roderick T., Foreman, Oded, Donahue, Leah Rae, Burzenski, Lisa M., Gott, Bruce, Lane, Priscilla, Harris, Belinda, Ceglarek, Uta, Thiery, Joachim, Wittenburg, Henning, Thon, Jonathan N., Italiano, Joseph E., Johnson, Kenneth R., and Shultz, Leonard D.

Abstract

The spontaneous mouse mutation “thrombocytopenia and cardiomyopathy” (trac)causes macrothrombocytopenia, prolonged bleeding times, anemia, leukopenia, infertility, cardiomyopathy, and shortened life span. Homozygotes show a 20-fold decrease in platelet numbers and a 3-fold increase in platelet size with structural alterations and functional impairments in activation and aggregation. Megakaryocytes in trac/tracmice are present in increased numbers, have poorly developed demarcation membrane systems, and have decreased polyploidy. The thrombocytopenia is not intrinsic to defects at the level of hematopoietic progenitor cells but is associated with a microenvironmental abnormality. The tracmutation maps to mouse chromosome 17, syntenic with human chromosome 2p21-22. A G to A mutation in exon 10 of the adenosine triphosphate (ATP)–binding cassette subfamily G, member 5 (Abcg5)gene, alters a tryptophan codon (UGG) to a premature stop codon (UAG). Crosses with mice doubly transgenic for the human ABCG5and ABCG8genes rescued platelet counts and volumes. ABCG5 and ABCG8 form a functional complex that limits dietary phytosterol accumulation. Phytosterolemia in trac/tracmice confirmed a functional defect in the ABCG5/ABCG8 transport system. The tracmutation provides a new clinically significant animal model for human phytosterolemia and provides a new means for studying the role of phytosterols in hematologic diseases and testing therapeutic interventions.

Published

2010

35. New insights into the biology and origin of mature aggressive B-cell lymphomas by combined epigenomic, genomic, and transcriptional profiling

Author

Martín-Subero, José I., Kreuz, Markus, Bibikova, Marina, Bentink, Stefan, Ammerpohl, Ole, Wickham-Garcia, Eliza, Rosolowski, Maciej, Richter, Julia, Lopez-Serra, Lidia, Ballestar, Esteban, Berger, Hilmar, Agirre, Xabier, Bernd, Heinz-Wolfram, Calvanese, Vincenzo, Cogliatti, Sergio B., Drexler, Hans G., Fan, Jian-Bing, Fraga, Mario F., Hansmann, Martin L., Hummel, Michael, Klapper, Wolfram, Korn, Bernhard, Küppers, Ralf, MacLeod, Roderick A. F., Möller, Peter, Ott, German, Pott, Christiane, Prosper, Felipe, Rosenwald, Andreas, Schwaenen, Carsten, Schübeler, Dirk, Seifert, Marc, Stürzenhofecker, Benjamin, Weber, Michael, Wessendorf, Swen, Loeffler, Markus, Trümper, Lorenz, Stein, Harald, Spang, Rainer, Esteller, Manel, Barker, David, Hasenclever, Dirk, and Siebert, Reiner

Abstract

Lymphomas are assumed to originate at different stages of lymphocyte development through chromosomal aberrations. Thus, different lymphomas resemble lymphocytes at distinct differentiation stages and show characteristic morphologic, genetic, and transcriptional features. Here, we have performed a microarray-based DNA methylation profiling of 83 mature aggressive B-cell non-Hodgkin lymphomas (maB-NHLs) characterized for their morphologic, genetic, and transcriptional features, including molecular Burkitt lymphomas and diffuse large B-cell lymphomas. Hierarchic clustering indicated that methylation patterns in maB-NHLs were not strictly associated with morphologic, genetic, or transcriptional features. By supervised analyses, we identified 56 genes de novo methylated in all lymphoma subtypes studied and 22 methylated in a lymphoma subtype–specific manner. Remarkably, the group of genes de novo methylated in all lymphoma subtypes was significantly enriched for polycomb targets in embryonic stem cells. De novo methylated genes in all maB-NHLs studied were expressed at low levels in lymphomas and normal hematopoietic tissues but not in nonhematopoietic tissues. These findings, especially the enrichment for polycomb targets in stem cells, indicate that maB-NHLs with different morphologic, genetic, and transcriptional background share a similar stem cell–like epigenetic pattern. This suggests that maB-NHLs originate from cells with stem cell features or that stemness was acquired during lymphomagenesis by epigenetic remodeling.

Published

2009

36. Somatic inactivation of the PHD2 prolyl hydroxylase causes polycythemia and congestive heart failure

Author

Minamishima, Yoji Andrew, Moslehi, Javid, Bardeesy, Nabeel, Cullen, Darragh, Bronson, Roderick T., and Kaelin, William G.

Abstract

Pharmacologic activation of the heterodimeric HIF transcription factor appears promising as a strategy to treat diseases, such as anemia, myocardial infarction, and stroke, in which tissue hypoxia is a prominent feature. HIF accumulation is normally linked to oxygen availability because an oxygen-dependent posttranslational modification (prolyl hydroxylation) marks the HIFα subunit for polyubiquitination and destruction. Three enzymes (PHD1, PHD2, and PHD3) capable of catalyzing this reaction have been identified, although PHD2 (also called Egln1) appears to be the primary HIF prolyl hydroxylase in cell culture experiments. We found that conditional inactivation of PHD2 in mice is sufficient to activate a subset of HIF target genes, including erythropoietin, leading to striking increases in red blood cell production. Mice lacking PHD2 exhibit premature mortality associated with marked venous congestion and dilated cardiomyopathy. The latter is likely the result of hyperviscosity syndrome and volume overload, although a direct effect of chronic, high-level HIF stimulation on cardiac myocytes cannot be excluded.

Published

2008

37. Comprehensive analysis of homeobox genes in Hodgkin lymphoma cell lines identifies dysregulated expression of HOXB9 mediated via ERK5 signaling and BMI1

Author

Nagel, Stefan, Burek, Christof, Venturini, Letizia, Scherr, Michaela, Quentmeier, Hilmar, Meyer, Corinna, Rosenwald, Andreas, Drexler, Hans G., and MacLeod, Roderick A. F.

Abstract

Many members of the nearly 200-strong homeobox gene family have been implicated in cancer, mostly following ectopic expression. In this study we analyzed homeobox gene expression in Hodgkin lymphoma (HL) cell lines. Both reverse transcription–polymerase chain reaction (RT-PCR) using degenerate primers and microarray profiling identified consistently up-regulated HOXB9 expression. Analysis of HOXB9 regulation in HL cells revealed E2F3A and BMI1 as activator and repressor, respectively. Furthermore, a constitutively active ERK5 pathway was identified in all HL cell lines analyzed as well as primary HL cells. Our data show that ERK5 probably mediates HOXB9 expression by repressing BMI1. In addition, expression analysis of the neighboring microRNA gene mir-196a1 revealed coregulation with HOXB9. Functional analysis of HOXB9 by knockdown and overexpression assays indicated their influence on both proliferation and apoptosis in HL cells. In summary, we identified up-regulation of HOXB9 in HL mediated by constitutively active ERK5 signaling which may represent novel therapeutic targets in HL.

Published

2007

38. Comprehensive analysis of homeobox genes in Hodgkin lymphoma cell lines identifies dysregulated expression of HOXB9mediated via ERK5 signaling and BMI1

Author

Nagel, Stefan, Burek, Christof, Venturini, Letizia, Scherr, Michaela, Quentmeier, Hilmar, Meyer, Corinna, Rosenwald, Andreas, Drexler, Hans G., and MacLeod, Roderick A.F.

Abstract

Many members of the nearly 200-strong homeobox gene family have been implicated in cancer, mostly following ectopic expression. In this study we analyzed homeobox gene expression in Hodgkin lymphoma (HL) cell lines. Both reverse transcription–polymerase chain reaction (RT-PCR) using degenerate primers and microarray profiling identified consistently up-regulated HOXB9 expression. Analysis of HOXB9 regulation in HL cells revealed E2F3A and BMI1 as activator and repressor, respectively. Furthermore, a constitutively active ERK5 pathway was identified in all HL cell lines analyzed as well as primary HL cells. Our data show that ERK5 probably mediates HOXB9 expression by repressing BMI1. In addition, expression analysis of the neighboring microRNA gene mir-196a1 revealed coregulation with HOXB9. Functional analysis of HOXB9 by knockdown and overexpression assays indicated their influence on both proliferation and apoptosis in HL cells. In summary, we identified up-regulation of HOXB9 in HL mediated by constitutively active ERK5 signaling which may represent novel therapeutic targets in HL.

Published

2007

39. Annexin-1 modulates T-cell activation and differentiation

Author

D'Acquisto, Fulvio, Merghani, Ahmed, Lecona, Emilio, Rosignoli, Guglielmo, Raza, Karim, Buckley, Christopher D., Flower, Roderick J., and Perretti, Mauro

Abstract

Annexin-1 is an anti-inflammatory protein that plays an important homeostatic role in innate immunity; however, its potential actions in the modulation of adaptive immunity have never been explored. Although inactive by itself, addition of annexin-1 to stimulated T cells augmented anti-CD3/CD28-mediated CD25 and CD69 expression and cell proliferation. This effect was paralleled by increased nuclear factor-κB (NF-κB), nuclear factor of activated T cells (NFATs), and activator protein-1 (AP-1) activation and preceded by a rapid T-cell receptor (TCR)–induced externalization of the annexin-1 receptor. Interestingly, differentiation of naive T cells in the presence of annexin-1 increased skewing in Th1 cells; in the collagen-induced arthritis model, treatment of mice with annexin-1 during the immunization phase exacerbated signs and symptoms at disease onset. Consistent with these findings, blood CD4+ cells from patients with rheumatoid arthritis showed a marked up-regulation of annexin-1 expression. Together these results demonstrate that annexin-1 is a molecular “tuner” of TCR signaling and suggest this protein might represent a new target for the development of drugs directed to pathologies where an unbalanced Th1/Th2 response or an aberrant activation of T cells is the major etiologic factor.

Published

2007

40. Clinical Outcomes in Patients with Hematologic Malignancy (HM) and COVID-19

Author

Cook, Michael Roderick, Dykes, Kaitlyn C, White, Katherine, Ahn, Jaeil, Cobb, Nathan, and Lai, Catherine

Abstract

Background:SARS-CoV-2 infection has been associated with profound infection-induced inflammatory changes including coagulopathy (Connors et al. Blood2020). Furthermore, venous thromboembolism (VTE) has been described as a common complication among patients with COVID-19 (Tang et al. J Thromb Haemost2020). Patients with a history of HM who contract SARS-CoV-2 may be at an even higher risk for VTE, given their elevated baseline VTE risk; however, there is limited clinical data for this patient population. Therefore, we performed a retrospective chart review to evaluate clinical outcomes in patients with COVID-19 and a history of HM.

Published

2020

41. Annexin 1 and its bioactive peptide inhibit neutrophil-endothelium interactions under flow: indication of distinct receptor involvement

Author

Hayhoe, Richard P.G., Kamal, Ahmad M., Solito, Egle, Flower, Roderick J., Cooper, Dianne, and Perretti, Mauro

Abstract

We have tested the effects of annexin 1 (ANXA1) and its N-terminal peptide Ac2-26 on polymorphonuclear leukocyte (PMN) recruitment under flow. Differential effects of the full-length protein and its peptide were observed; ANXA1 inhibited firm adhesion of human PMNs, while Ac2-26 significantly attenuated capture and rolling without effect on firm adhesion. Analysis of the effects of ANXA1 and Ac2-26 on PMN adhesion molecule expression supported the flow chamber results, with Ac2-26 but not ANXA1 causing l-selectin and PSGL-1 shedding. ANXA1 and its peptide act via the FPR family of receptors. This was corroborated using HEK-293 cells transfected with FPR or FPRL-1/ALX (the 2 members of this family expressed by human PMNs). While Ac2-26 bound both FPR and FPRL-1/ALX, ANXA1 bound FPRL-1/ALX only. ANXA1 and Ac2-26 acted as genuine agonists; Ac2-26 binding led to ERK activation in both FPR- and FPRL-1/ALX-transfected cells, while ANXA1 caused ERK activation only in cells transfected with FPRL-1/ALX. Finally, blockade of FPRL-1/ALX with a neutralizing monoclonal antibody was found to abrogate the effects of ANXA1 in the flow chamber but was without effect on Ac2-26-mediated inhibition of rolling. These findings demonstrate for the first time distinct mechanisms of action for ANXA1 and its N-terminal peptide Ac2-26.

Published

2006

42. Ligand-specific glucocorticoid receptor activation in human platelets

Author

Moraes, Leonardo A., Paul-Clark, Mark J., Rickman, Alice, Flower, Roderick J., Goulding, Nicolas J., and Perretti, Mauro

Abstract

Few studies have addressed the effects of classical anti-inflammatory glucocorticoids on platelet function. Here, we report for the first time that human platelets contain the glucocorticoid receptor (GR) as identified by a combination of biochemical and functional techniques. Ligand-binding studies revealed the presence of a high- and low-affinity binding site for [3H]-dexamethasone in platelets. The 2 GR ligands prednisolone and dexamethasone competed for [3H]-dexamethasone binding, as did the mineralocorticoid aldosterone. However, while prednisolone (1-10 μM) reduced adenosine diphosphate (ADP, 4 μM) and thromboxane A2receptor agonist U46619 induced platelet aggregation (up to 75%), dexamethasone had no effect. The inhibition produced by prednisolone was reversed by preincubation with the GR antagonist mifepristone (10 μM; RU486), suggesting the functional importance of the ligand-receptor complex. In addition, prednisolone caused a marked (∼ 50%) reduction in thromboxane B2levels, whereas dexamethasone was without effect. The apparently anomalous binding data were clarified by the fact that washed platelets (1) contained mineralocorticoid receptor and that (2) it was associated with GR. Taken together, our data suggest that platelet GR forms a heterodimeric complex with the mineralocorticoid receptor that is susceptible to differential activation by specific receptor ligands.

Published

2005

43. Induction of human T-cell tolerance to porcine xenoantigens through mixed hematopoietic chimerism

Author

Lan, Ping, Wang, Lan, Diouf, Bintou, Eguchi, Hiroshi, Su, Hui, Bronson, Roderick, Sachs, David H., Sykes, Megan, and Yang, Yong-Guang

Abstract

Xenotransplantation from pigs could provide a potential solution to the severe shortage of allogeneic donor organs. Because xenogeneic tissues are subject to vigorous immune rejection, tolerance induction is likely to be essential to the success of clinical xenotransplantation. Here we explore the possibility of inducing human T-cell tolerance to porcine xenografts through mixed chimerism. We previously showed that NOD/SCID-Tg mice expressing porcine cytokine transgenes permit the induction of durable porcine hematopoietic chimerism. In this study we achieved human T-cell development in these mice by engrafting human fetal thymus/liver tissues. In porcine hematopoietic chimeras, human thymus grafts were populated with porcine class IIhigh cells in addition to human cells, and human T cells were tolerant of the porcine hematopoietic donor as measured by mixed lymphocyte reaction assay and skin grafting. This study proves the principle that porcine chimerism induces tolerance of xenoreactive human T cells.

Published

2004

44. Leukocyte antiadhesive actions of annexin 1: ALXR- and FPR-related anti-inflammatory mechanisms

Author

Gavins, Felicity N.E., Yona, Simon, Kamal, Ahmad M., Flower, Roderick J., and Perretti, Mauro

Abstract

Recent investigations conducted with human neutrophils have indicated an involvement for the receptor for formylated peptides, termed FPR, and its analog FPRL1 (or ALXR because it is the receptor for the endogenous ligand lipoxin A4) in the in vitro inhibitory actions of the glucocorticoid-regulated protein annexin 1 and its peptidomimetics. To translate these findings in in vivo settings, we have used an ischemia/reperfusion (I/R) procedure to promote leukocyte-endothelium interactions in the mouse mesenteric microcirculation. In naive mice, the annexin 1 mimetic peptide Ac2-26 (20 to 100 μg administered intravenously prior to reperfusion) abolished I/R-induced cell adhesion and emigration, but not cell rolling. In FPR-deficient mice, peptide Ac2-26 retained significant inhibitory actions (about 50% of the effects in naive mice), and these were blocked by an FPR antagonist, termed butyloxycarbonyl-Phe-Leu-Phe-Leu-Phe, or Boc2. In vitro, neutrophils taken from these animals could be activated at high concentrations of formyl-Met-Leu-Phe (30 μM; fMLP), and this effect was blocked by cell incubation with peptide Ac2-26 (66 μM) or Boc2 (100 μM). FPR-deficient neutrophils expressed ALXR mRNA and protein. Both ALXR agonists, lipoxin A4and peptide Ac2-26, provoked detachment of adherent leukocytes in naive as well as in FPR-deficient mice, whereas the CXC chemokine KC or fMLP were inactive. The present findings demonstrate that endogenous regulatory autocoids such as lipoxin A4and annexin 1–derived peptides function to disengage adherent cells during cell-cell interactions.

Published

2003

45. Donor lymphocyte infusions mediate superior graft-versus-leukemia effects in mixed compared to fully allogeneic chimeras: a critical role for host antigen–presenting cells

Author

Mapara, Markus Y., Kim, Yong-Mi, Wang, Sheng-Ping, Bronson, Roderick, Sachs, David H., and Sykes, Megan

Abstract

In mice, donor leukocyte infusion (DLI) given to established mixed allogeneic chimeras can mediate powerful graft-versus-host (GVH) reactions confined to the lymphohematopoietic system without inducing graft-versus-host disease (GVHD). In a clinical trial attempting to capture this approach to achieve graft-versus-leukemia/lymphoma (GVL) effects without GVHD, we have observed surprisingly powerful antitumor effects of DLI in patients achieving mixed chimerism after nonmyeloablative bone marrow transplantation. This observation led us to hypothesize that host antigen–presenting cells in mixed chimeras might be required to optimally present recipient antigens to the donor lymphocytes, leading to maximal graft-versus-tumor effects. To test this hypothesis, we established mixed and fully allogeneic hematopoietic chimeras in B6 mice and evaluated the effect of DLI on EL4 T-cell lymphoma. DLI administration to mixed chimeras produced dramatically improved leukemia-free survival compared to administration of DLI to full donor chimeras. DLI also converted mixed chimeras to full chimeras without causing GVHD. The magnitude of the GVL effect was dependent on the level of major histocompatibility complex class I expression on recipient hematopoietic cells in mixed chimeras. Thus, the induction of mixed chimerism followed by delayed DLI provides an approach to inhibiting GVHD that optimizes GVL effects.

Published

2002

46. Defective spectrin integrity and neonatal thrombosis in the first mouse model for severe hereditary elliptocytosis

Author

Wandersee, Nancy J., Roesch, Amanda N., Hamblen, Nancy R., de Moes, Joost, van der Valk, Martin A., Bronson, Roderick T., Gimm, J. Aura, Mohandas, Narla, Demant, Peter, and Barker, Jane E.

Abstract

Mutations affecting the conversion of spectrin dimers to tetramers result in hereditary elliptocytosis (HE), whereas a deficiency of human erythroid α- or β-spectrin results in hereditary spherocytosis (HS). All spontaneous mutant mice with cytoskeletal deficiencies of spectrin reported to date have HS. Here, the first spontaneous mouse mutant,sphDem/ sphDem, with severe HE is described. The sphDem mutation is the insertion of an intracisternal A particle element in intron 10 of the erythroid α-spectrin gene. This causes exon skipping, the in-frame deletion of 46 amino acids from repeat 5 of α-spectrin and alters spectrin dimer/tetramer stability and osmotic fragility. The disease is more severe insphDem/sphDem neonates than in α-spectrin–deficient mice with HS. Thrombosis and infarction are not, as in the HS mice, limited to adults but occur soon after birth. Genetic background differences that exist between HE and HS mice are suspect, along with red blood cell morphology differences, as modifiers of thrombosis timing.sphDem/sphDem mice provide a unique model for analyzing spectrin dimer- to-tetramer conversion and identifying factors that influence thrombosis.

Published

2001

47. AZD4573 Effectively Induces Apoptosis in r/r MCL As a Monotherapy or in Combination with Acalabrutinib

Author

Roderick, Justine, Boiko, Scott, Andersen, Courtney L, Liang, Huiling, Dowdell, Gregory, Reimer, Corinne, Drew, Lisa, Townsley, Danielle M, and Cidado, Justin

Abstract

Mantle cell lymphoma (MCL) is an aggressive form of NHL where frequent relapse following standard therapies remains a serious concern, even for promising new treatments such as combinations of a BTK inhibitor with the selective Bcl2 inhibitor venetoclax. Previous studies have also shown that MCL cells develop resistance through tumor microenvironment interactions that increase levels of Mcl1, BclxL, and/or Bfl1. Given the ability of CDK9 inhibition to deplete Mcl1 and Bfl1 (Boiko et al 2021), we explored the potential of clinical-stage inhibitor AZD4573 to induce apoptosis in MCL cell lines and PDX models as a monotherapy or in combination with acalabrutinib. Currently, AZD4573 is being evaluated as a monotherapy in a first-in-human study for relapsed or refractory hematological malignancies (NCT03263637) as well as in combination with the BTK inhibitor, acalabrutinib, in patients with non-Hodgkin lymphoma (NHL) (NCT04630756).

Published

2021

48. Heme Induced Progressive Loss of Endothelial Protein C Receptor Promotes Development of Chronic Kidney Disease in Sickle Cell Disorders

Author

Hazra, Rimi, Chen, Qiyang, Crosby, Danielle, Lenhart, Diane, Tan, Roderick, Kim, Kang, Rao, L. Vijaya Mohan, Ofori-Acquah, Solomon Fiifi, and Ghosh, Samit

Abstract

Chronic kidney disease (CKD), widespread among the individuals with sickle cell disease (SCD), is a major contributor to early death in this patient population. The progressive deterioration of renal health in SCD is associated with chronic persistent intravascular hemolysis leading to anemia. We have previously reported that extracellular heme, released during acute intravascular hemolysis triggers clinically relevant acute kidney injury (AKI) in SCD mice (SS) (Blood (2020) 135 (13): 1044-1048). Although AKI is reversible, it is considered as a risk factor for CKD. The mechanistic approach elucidating the hemolysis driven pathogenesis of AKI-to-CKD transition in SCD is unknown. We found that CKD develops in the SS mice by progressive (1-10 months of age) increase in albuminuria (urinary albumin and creatinine ratio, uACR) and decrease in glomerular filtration rate (GFR) (n=5; p<0.001). Histopathology of the kidney showed age-dependent deterioration in renal peritubular vascular congestion in SS mice compared to that of the AA mice. Alongside, Evan's blue extravasation experiments showed that the SS mice are susceptible to vascular leakage that is correlated positively with age (Pearson r=0.98, p<0.001) and negatively with anemia (Pearson r= -0.46, p<0.05). We hypothesized that multiple acute hemolytic events may instigate persistent endothelial damage that ensues CKD development in SCD. To test this hypothesis, we intravenously infused vehicle or heme (14 μmoles/kg body weight; 5 times on alternate days) to 1-month old SS mice and monitored for 3 weeks following first heme injection. These mice developed severe albuminuria (n=5; p<0.01) with substantial loss of GFR (n=5; p<0.001), indicating heme induced CKD development. Next, we used ultrasound super-resolution (USR) imaging technology to determine renal microvascular changes in older SS mice (6-months) without heme challenge and in young SS mice (1-month) challenged with heme. Analysis of the USR data showed reduced renal blood volume (rBV) and substantial loss of vessel density in renal cortex as well as in corticomedullary areas of the older SS mice compared to the age-matched AA mice. Accordingly, multiple heme challenge reduced rBV and vessel density extensively in young SS mice comparable to the older SS mice without heme challenge. Since endothelial protein C receptor (EPCR) maintains vascular barrier integrity by activating protease activated receptor-1 (PAR1) signaling in the endothelium, we tested whether alterations in EPCR expression contribute to progressive endothelial damage in SS mice during CKD development. Using immunofluorescence microscopy, we determined that renal endothelium lacks expression of EPCR in older SS mice while younger SS mice retains EPCR cellular expression. In corroboration, infusion of heme in younger SS mice results in loss of renal endothelial EPCR. Shedding of EPCR from endothelium often results in a soluble form of EPCR (sEPCR). We found that SS mice had higher plasma levels of soluble EPCR (sEPCR) compared to their AA counterparts. While age dependent increase in plasma and urinary sEPCR were evident in SS mice (n=6; p<0.01), infusion of heme in younger SS mice results in significant increase in plasma sEPCR (n=6; p<0.01). In consistent with the mouse data, we discovered that the plasma sEPCR was significantly elevated in SCD patients compared to normal individuals (n=8-16; p<0.05). Moreover, the plasma sEPCR was significantly associated with the baseline albuminuria in a cohort of SCD patients (n=16; Pearson r=0.64; p<0.01). This study supports the conclusion that multiple hemolytic events may trigger CKD development in SCD by gradual loss of renal microvascular EPCR expression. Clinically, the sEPCR can be developed as risk factor for sickle CKD. Finally, our data suggest that restoration of EPCR function may protect SCD patients from CKD.

Published

2021

49. Combination Benefit of Capivasertib and Venetoclax in Preclinical Models of Diffuse Large B-Cell Lymphoma

Author

Willis, Brandon, Neveras, India, Dry, Hannah, Xu, Wendan, Li, Yang, Mongeon, Kevin, Roderick, Justine, Rosen, Alan, Klener, Pavel, Lenz, Georg, Mettetal, Jerome, and Barry, Simon

Abstract

Diffuse large B-cell lymphoma (DLBCL) is the most common B-cell malignancy among adults and despite approximately 65% of patients with DLBCL being cured with RCHOP therapy, nonresponsive and relapsed patients have inadequate treatment options, highlighting the importance for innovative treatment regimens. Blockade of B-cell receptor (BCR) downstream signaling components with various targeted agents is emerging as a clinically tractable treatment strategy across multiple B-cell malignancies. Protein Kinase B (AKT) signaling downstream of the BCR complex has been shown to be a central node in germinal center B-cell (GCB) DLBCL and the potent, selective inhibitor of AKT1, AKT2, AKT3, capivasertib, currently being evaluated in multiple clinical trials by targeting AKT-driven solid cancers, has been shown to induce apoptosis in a subset of GCB-DLBCL cell lines and cause tumor stasis in xenograft mouse models (Erdman et al., 2017). Since the monotherapy capivasertib responses in GCB DLBCL models are partial and lack durability, we hypothesized a combination approach could deliver even greater therapeutic benefit. To identify optimal partners, we conducted a capivasertib centric in vitrocombination screen with specific with BH3 family members across a panel of 15 DLBCL cell lines, which revealed a synergistically active combination with the BCL2 inhibitor, venetoclax which is currently being evaluated in DLBCL. The activity was specifically enhanced in cell lines of the GCB subtype, with 4 PTEN deland 2 PTEN wtcell line models showing combination benefit. To determine the ability of this combination to drive stronger and durable responses, we assessed capivasertib and ventoclax activity in xenograft mouse models using two GCB-DLBCL cell line lines, SUDHL4 (PTEN wt) and WSU-DLCL2 (PTEN del). Oral administration of either monotherapy capivasertib (130 mg/kg BID, 4-day on/3-day off) or venetoclax (100 mg/kg QD) provided partial tumor growth inhibition (capivasertib TGI = 74% in SUDHL4 and 29% in WSU-DLCL2, and venetoclax TGI = 46% in SUDHL4 and 0% in WSU-DLCL2), whereas the combination of capivasertib and venetoclax both on a 4-day on/3-day off schedule produced complete tumor regression (100% regression) in both xenograft GCB cell line models during the dosing period. Notably, in both xenograft models all mice (5/5 per model) remained tumor free for at least 30 days following dosing cessation demonstrating high durability of response for the combination. Additionally, this combination is currently being evaluated in clinically relevant GCB and non-GCB PDX mouse models. Taken together, our results provide preclinical evidence for the rational combination of AKT and BCL-2 blockade with capivasertib and venetoclax respectively in patients with relapsed/refractory GCB-DLBCL.

Published

2021

50. Hematopoietic Cells From ?-Spectrin–Deficient Mice Are Sufficient to Induce Thrombotic Events in Hematopoietically Ablated Recipients

Author

Wandersee, Nancy J., Lee, John C., Kaysser, Tamma M., Bronson, Roderick T., and Barker, Jane E.

Abstract

Thrombotic events are life-threatening complications of human hemolytic anemias such as paroxysmal nocturnal hemoglobinuria, sickle cell disease, and thalassemia. It is not clear whether these events are solely influenced by aberrant hematopoietic cells or also involve aberrant nonhematopoietic cells. Spherocytosis mutant (Spna1sph/Spna1sph; for simplicity referred to as sph/sph) mice develop a severe hemolytic anemia postnatally due to deficiencies in ?-spectrin in erythroid and other as yet incompletely defined nonerythroid tissues. Thrombotic lesions occur in all adult sph/sph mice, thus providing a hematopoietically stressed model in which to assess putative causes of thrombus formation. To determine whether hematopoietic cells fromsph/sph mice are sufficient to initiate thrombi, bone marrow from sph/sph or +/+ mice was transplanted into mice with no hemolytic anemia. One set of recipients was lethally irradiated; the other set was genetically stem cell deficient. All mice implanted withsph/sph marrow, but not +/+ marrow, developed severe anemia and histopathology typical of sph/sph mice. Histological analyses of marrow recipients showed that thrombi were present in the recipients of sph/sph marrow, but not +/+ marrow. The results indicate that the ?-spectrin–deficient hematopoietic cells of sph/sph mice are the primary causative agents of the thrombotic events.

Published

1998