Your search keyword '"Joseph B. Bolen"' showing total 3 results

1. MLN4924, a NEDD8-activating enzyme inhibitor, is active in diffuse large B-cell lymphoma models: rationale for treatment of NF-κB–dependent lymphoma

Author

Joseph B. Bolen, Erik Koenig, Michael Milhollen, Teresa A. Soucy, Usha Narayanan, Michael P. Thomas, James J. Garnsey, Louis M. Staudt, Mark Rolfe, Lawrence R. Dick, Tary Traore, Steven P. Langston, Julie Zhang, Jie Yu, Lenny Dang, Peter G. Smith, Allison Berger, Jennifer Adams-Duffy, and Mark Manfredi

Subjects

DNA Replication, Programmed cell death, NEDD8 Protein, DNA damage, Blotting, Western, Immunology, Apoptosis, Cyclopentanes, Mice, SCID, Biology, Biochemistry, Mice, Mice, Inbred NOD, hemic and lymphatic diseases, medicine, Animals, Humans, RNA, Messenger, Ubiquitins, Cell Proliferation, B-Lymphocytes, Reverse Transcriptase Polymerase Chain Reaction, Cell Cycle, NF-kappa B, Cell Biology, Hematology, Flow Cytometry, Germinal Center, medicine.disease, Xenograft Model Antitumor Assays, Lymphoma, Pyrimidines, Pevonedistat, Mechanism of action, Enzyme inhibitor, Cancer cell, Cancer research, biology.protein, Female, Lymphoma, Large B-Cell, Diffuse, medicine.symptom, Diffuse large B-cell lymphoma

Abstract

MLN4924 is a potent and selective small molecule NEDD8-activating enzyme (NAE) inhibitor. In most cancer cells tested, inhibition of NAE leads to induction of DNA rereplication, resulting in DNA damage and cell death. However, in preclinical models of activated B cell–like (ABC) diffuse large B-cell lymphoma (DLBCL), we show that MLN4924 induces an alternative mechanism of action. Treatment of ABC DLBCL cells with MLN4924 resulted in rapid accumulation of pIκBα, decrease in nuclear p65 content, reduction of nuclear factor-κB (NF-κB) transcriptional activity, and G1 arrest, ultimately resulting in apoptosis induction, events consistent with potent NF-κB pathway inhibition. Treatment of germinal-center B cell–like (GCB) DLBCL cells resulted in an increase in cellular Cdt-1 and accumulation of cells in S-phase, consistent with cells undergoing DNA rereplication. In vivo administration of MLN4924 to mice bearing human xenograft tumors of ABC- and GCB-DLBCL blocked NAE pathway biomarkers and resulted in complete tumor growth inhibition. In primary human tumor models of ABC-DLBCL, MLN4924 treatment resulted in NF-κB pathway inhibition accompanied by tumor regressions. This work describes a novel mechanism of targeted NF-κB pathway modulation in DLBCL and provides strong rationale for clinical development of MLN4924 against NF-κB–dependent lymphomas.

Published

2010

2. Mutation of NRAS but not KRAS significantly reduces myeloma sensitivity to single-agent bortezomib therapy

Author

Paul G. Richardson, Alessandra Di Bacco, Andrew Dorner, Allison Berger, Deborah Ricci, Pieter Sonneveld, Erik Koenig, Robert Z. Orlowski, Jeśus F.San Miguel, Hugues Bernard, Edward A. Stadtmauer, William L. Trepicchio, David I. Lichter, Helgi van de Velde, Sundar Jagannath, Matthew Schu, Kenneth C. Anderson, Stephen J. Blakemore, Nibedita Chattopadhyay, Dixie Lee Esseltine, George Mulligan, Joseph B. Bolen, Rachel Neuwirth, Bin Li, Sagar Lonial, James R. Berenson, Radiology & Nuclear Medicine, Epidemiology, and Hematology

Subjects

Neuroblastoma RAS viral oncogene homolog, Clinical Trials and Observations, Immunology, Antineoplastic Agents, PDGFRA, Biology, Bioinformatics, medicine.disease_cause, Biochemistry, GTP Phosphohydrolases, Bortezomib, Cohort Studies, Proto-Oncogene Proteins p21(ras), immune system diseases, hemic and lymphatic diseases, Proto-Oncogene Proteins, medicine, Humans, neoplasms, Survival analysis, Multiple myeloma, Dexamethasone, Mutation, Dose-Response Relationship, Drug, Membrane Proteins, Cell Biology, Hematology, medicine.disease, Prognosis, Boronic Acids, Survival Analysis, digestive system diseases, Pyrazines, Cancer research, ras Proteins, KRAS, Multiple Myeloma, medicine.drug

Abstract

Various translocations and mutations have been identified in myeloma, and certain aberrations, such as t(4;14) and del17, are linked with disease prognosis. To investigate mutational prevalence in myeloma and associations between mutations and patient outcomes, we tested a panel of 41 known oncogenes and tumor suppressor genes in tumor samples from 133 relapsed myeloma patients participating in phase 2 or 3 clinical trials of bortezomib. DNA mutations were identified in 14 genes. BRAF as well as RAS genes were mutated in a large proportion of cases (45.9%) and these mutations were mutually exclusive. New recurrent mutations were also identified, including in the PDGFRA and JAK3 genes. NRAS mutations were associated with a significantly lower response rate to single-agent bortezomib (7% vs 53% in patients with mutant vs wild-type NRAS, P = .00116, Bonferroni-corrected P = .016), as well as shorter time to progression in bortezomib-treated patients (P = .0058, Bonferroni-corrected P = .012). However, NRAS mutation did not impact outcome in patients treated with high-dose dexamethasone. KRAS mutation did not reduce sensitivity to bortezomib or dexamethasone. These findings identify a significant clinical impact of NRAS mutation in myeloma and demonstrate a clear example of functional differences between the KRAS and NRAS oncogenes.

Published

2014

3. In-Vitro and in-Vivo Evaluation of the Orally Active Proteasome Inhibitor MLN9708 in Hematological Models of Human Cancer

Author

Paul E. Fleming, Mark Manfredi, Edmund Lee, Frank J. Bruzzese, Jane Liu, Erik Kupperman, Jonathan L. Blank, Paul Hales, Christopher Tsu, Michael Fitzgerald, Mark Rolfe, Li Yu, Allison Berger, Julie Zhang, Khristofer Garcia, Joseph B. Bolen, Jie Yu, Larry Dick, Bret Bannerman, and Yueying Cao

Subjects

Bortezomib, business.industry, Immunology, Cell Biology, Hematology, Pharmacology, medicine.disease, Biochemistry, Ixazomib, chemistry.chemical_compound, chemistry, Proteasome, Pharmacokinetics, medicine, Proteasome inhibitor, Mantle cell lymphoma, business, Diffuse large B-cell lymphoma, Multiple myeloma, medicine.drug

Abstract

Abstract 2709 Poster Board II-685 Introduction: The ubiquitin-proteasome system processes the majority of cellular proteins and is the principal manner by which cells regulate protein homeostasis. The successful development of bortezomib for multiple myeloma and previously treated mantle cell lymphoma has validated the proteasome as a therapeutic target for hematological malignancies. MLN9708 was identified in screens for a proteasome inhibitor with greater antitumor activity than bortezomib in preclinical xenograft models. MLN9708 immediately hydrolyzes to MLN2238, the biologically active form, upon exposure to aqueous solutions or plasma. MLN2238 was used for all preclinical studies described below. Results: MLN2238 inhibited the 20S proteasome b5 site (IC50 of 3.4 nM), an engineered proteasome substrate (4x ubiquitin-luciferase reporter) and blocked TNFa-induced activation of the NFkB pathway. Cell viability studies confirmed that MLN2238 has potent activity against both myeloma and lymphoma cell lines. The proteasome dissociation half life of MLN2238 was determined to be approximately 6-fold faster than bortezomib, consistent with data generated from Proteasome-Glo wash out experiments where proteasome activity recovered more quickly in MLN2238-treated cells compared to bortezomib. In immunocompromised mice MLN2238 achieved exposures that resulted in significant blood and tumor proteasome inhibition and had increased plasma and tumor exposure compared to bortezomib (when dosed at MTD). In Sprague-Dawley rats, MLN2238 had improved plasma exposure, lower plasma clearance, higher blood Vdss, better oral F% and higher plasma protein binding than bortezomib. In WSU-DLCL2 xenografts, a model of diffuse large B cell lymphoma, greater antitumor activity was seen in mice treated with IV or SC doses of MLN2238 compared to bortezomib. For example, MLN2238 dosed SC QD at its MTD resulted in a T/C of 0.29 compared to bortezomib dosed SC QD at its MTD which resulted in a T/C of 0.79. Pharmacodynamic (PD) responses (in mice) were assessed by evaluating tumor 20S b5 site-specific activity and expression levels of GADD34, an unfolded protein response (UPR) pathway gene shown to be upregulated in response to proteasome inhibition. Consistent with the efficacy difference between MLN2238 and bortezomib in WSU-DLCL2 xenografts, MLN2238 demonstrated an improved PD response compared to bortezomib, showing higher levels of tumor proteasome inhibition and pathway marker elevation. MLN2238 and bortezomib were then evaluated for their ability to reduce tumor burden and improve overall survival in a disseminated model of lymphoma. Tumor burden was tracked over time via bioluminescent scans in NOD-SCID mice inoculated with OCI-Ly7-luciferase cells. The strongest antitumor response was seen in mice treated with MLN2238 SC QD at its MTD, and this dosing regimen also significantly prolonged overall survival compared to vehicle treated controls (median survival was 54 vs. 33 days). Weaker antitumor responses were seen following treatment with bortezomib (either at its SC QD MTD or weekly IV MTD) and these dose regimens did not significantly prolong survival in this study. Conclusions: MLN2238 is a potent, reversible and orally bioavailable proteasome inhibitor with improved pharmacokinetics, pharmacodynamics and antitumor activity in preclinical xenograft models compared to bortezomib. MLN9708 is currently in clinical development for a variety of oncology indications. Disclosures: Kupperman: Milllennium: Employment. Lee:Milllennium: Employment, Equity Ownership. Cao:Milllennium: Employment, Equity Ownership. Bannerman:Milllennium: Employment. Fitzgerald:Millennium Pharmaceuticals: Employment. Berger:Millennium Pharmaceuticals: Employment. Yu:Millennium Pharmaceuticals: Employment. Zhang:Millennium Pharmaceuticals: Employment. Hales:Millennium Pharmaceuticals: Employment. Bruzzese:Millennium Pharmaceuticals: Employment. Liu:Millennium Pharmaceuticals: Employment. Blank:Millennium Pharmaceuticals: Employment. Garcia:Millennium Pharmaceuticals: Employment. Tsu:Millennium Pharmaceuticals: Employment. Dick:Millennium Pharmaceuticals: Employment. Fleming:Millennium Pharmaceuticals: Employment. Yu:Millennium Pharmaceuticals: Employment. Manfredi:Millennium Pharmaceuticals: Employment. Rolfe:Millennium Pharmaceuticals: Employment. Bolen:Millennium Pharmaceuticals: Employment.

Published

2009