Your search keyword '"Michael Kalos"' showing total 188 results

1. Treatment with a VEGFR-2 antibody results in intra-tumor immune modulation and enhances anti-tumor efficacy of PD-L1 blockade in syngeneic murine tumor models

Author

Yanxia Li, Nelusha Amaladas, Marguerita O’Mahony, Jason R. Manro, Ivan Inigo, Qi Li, Erik R. Rasmussen, Manisha Brahmachary, Thompson N. Doman, Gerald Hall, Michael Kalos, Ruslan Novosiadly, Oscar Puig, Bronislaw Pytowski, and David A. Schaer

Subjects

Medicine, Science

Abstract

Prolonged activation of vascular endothelial growth factor receptor-2 (VEGFR-2) due to mis-regulation of the VEGF pathway induces aberrant blood vessel expansion, which supports growth and survival of solid tumors. Therapeutic interventions that inhibit the VEGFR-2 pathway have therefore become a mainstay of cancer treatment. Non-clinical studies have recently revealed that blockade of angiogenesis can modulate the tumor microenvironment and enhance the efficacy of concurrent immune therapies. Ramucirumab is an FDA-approved anti-angiogenic antibody that inhibits VEGFR-2 and is currently being evaluated in clinical studies in combination with anti-programmed cell death (PD-1) axis checkpoint inhibitors (pembrolizumab, durvalumab, or sintilimab) across several cancer types. The purpose of this study is to establish a mechanistic basis for the enhanced activity observed in the combined blockade of VEGFR-2 and PD-1-axis pathways. Pre-clinical studies were conducted in murine tumor models known to be responsive to anti-PD-1 axis therapy, using monoclonal antibodies that block mouse VEGFR-2 and programmed death-ligand 1 (PD-L1). Combination therapy resulted in enhanced anti-tumor activity compared to anti-PD-L1 monotherapy. VEGFR-2 blockade at early timepoints post-anti-PD-L1 therapy resulted in a dose-dependent and transient enhanced infiltration of T cells, and establishment of immunological memory. VEGFR-2 blockade at later timepoints resulted in enhancement of anti-PD-L1-driven immune cell infiltration. VEGFR-2 and PD-L1 monotherapies induced both unique and overlapping patterns of immune gene expression, and combination therapy resulted in an enhanced immune activation signature. Collectively, these results provide new and actionable insights into the mechanisms by which concurrent VEGFR-2 and PD-L1 antibody therapy leads to enhanced anti-tumor efficacy.

Published

2022

2. Targeting the TGFβ pathway with galunisertib, a TGFβRI small molecule inhibitor, promotes anti-tumor immunity leading to durable, complete responses, as monotherapy and in combination with checkpoint blockade

Author

Rikke B. Holmgaard, David A. Schaer, Yanxia Li, Stephen P. Castaneda, Mary Y. Murphy, Xiaohong Xu, Ivan Inigo, Julie Dobkin, Jason R. Manro, Philip W. Iversen, David Surguladze, Gerald E. Hall, Ruslan D. Novosiadly, Karim A. Benhadji, Gregory D. Plowman, Michael Kalos, and Kyla E. Driscoll

Subjects

TGF-β receptor I, Antitumor efficacy, Checkpoint inhibitors, Galunisertib, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background TGFβ signaling plays a pleotropic role in tumor biology, promoting tumor proliferation, invasion and metastasis, and escape from immune surveillance. Inhibiting TGFβ’s immune suppressive effects has become of particular interest as a way to increase the benefit of cancer immunotherapy. Here we utilized preclinical models to explore the impact of the clinical stage TGFβ pathway inhibitor, galunisertib, on anti-tumor immunity at clinically relevant doses. Results In vitro treatment with galunisertib reversed TGFβ and regulatory T cell mediated suppression of human T cell proliferation. In vivo treatment of mice with established 4T1-LP tumors resulted in strong dose-dependent anti-tumor activity with close to 100% inhibition of tumor growth and complete regressions upon cessation of treatment in 50% of animals. This effect was CD8+ T cell dependent, and led to increased T cell numbers in treated tumors. Mice with durable regressions rejected tumor rechallenge, demonstrating the establishment of immunological memory. Consequently, mice that rejected immunogenic 4T1-LP tumors were able to resist rechallenge with poorly immunogenic 4 T1 parental cells, suggesting the development of a secondary immune response via antigen spreading as a consequence of effective tumor targeting. Combination of galunisertib with PD-L1 blockade resulted in improved tumor growth inhibition and complete regressions in colon carcinoma models, demonstrating the potential synergy when cotargeting TGFβ and PD-1/PD-L1 pathways. Combination therapy was associated with enhanced anti-tumor immune related gene expression profile that was accelerated compared to anti-PD-L1 monotherapy. Conclusions Together these data highlight the ability of galunisertib to modulate T cell immunity and the therapeutic potential of combining galunisertib with current PD-1/L1 immunotherapy.

Published

2018

3. Discovery and preclinical characterization of the antagonist anti-PD-L1 monoclonal antibody LY3300054

Author

Yiwen Li, Carmine Carpenito, George Wang, David Surguladze, Amelie Forest, Maria Malabunga, Mary Murphy, Yiwei Zhang, Andreas Sonyi, Darin Chin, Douglas Burtrum, Ivan Inigo, Anthony Pennello, Leyi Shen, Laurent Malherbe, Xinlei Chen, Gerald Hall, Jaafar N. Haidar, Dale L. Ludwig, Ruslan D. Novosiadly, and Michael Kalos

Subjects

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

Abstract

Abstract Background Modulation of the PD-1/PD-L1 axis through antagonist antibodies that block either receptor or ligand has been shown to reinvigorate the function of tumor-specific T cells and unleash potent anti-tumor immunity, leading to durable objective responses in a subset of patients across multiple tumor types. Results Here we describe the discovery and preclinical characterization of LY3300054, a fully human IgG1λ monoclonal antibody that binds to human PD-L1 with high affinity and inhibits interactions of PD-L1 with its two cognate receptors PD-1 and CD80. The functional activity of LY3300054 on primary human T cells is evaluated using a series of in vitro T cell functional assays and in vivo models using human-immune reconstituted mice. LY3300054 is shown to induce primary T cell activation in vitro, increase T cell activation in combination with anti-CTLA4 antibody, and to potently enhance anti-tumor alloreactivity in several xenograft mouse tumor models with reconstituted human immune cells. High-content molecular analysis of tumor and peripheral tissues from animals treated with LY3300054 reveals distinct adaptive immune activation signatures, and also previously not described modulation of innate immune pathways. Conclusions LY3300054 is currently being evaluated in phase I clinical trials for oncology indications.

Published

2018

4. The CDK4/6 Inhibitor Abemaciclib Induces a T Cell Inflamed Tumor Microenvironment and Enhances the Efficacy of PD-L1 Checkpoint Blockade

Author

David A. Schaer, Richard P. Beckmann, Jack A. Dempsey, Lysiane Huber, Amelie Forest, Nelusha Amaladas, Yanxia Li, Ying Cindy Wang, Erik R. Rasmussen, Darin Chin, Andrew Capen, Carmine Carpenito, Kirk A. Staschke, Linda A. Chung, Lacey M. Litchfield, Farhana F. Merzoug, Xueqian Gong, Philip W. Iversen, Sean Buchanan, Alfonso de Dios, Ruslan D. Novosiadly, and Michael Kalos

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Abemaciclib, an inhibitor of cyclin dependent kinases 4 and 6 (CDK4/6), has recently been approved for the treatment of hormone receptor-positive breast cancer. In this study, we use murine syngeneic tumor models and in vitro assays to investigate the impact of abemaciclib on T cells, the tumor immune microenvironment and the ability to combine with anti-PD-L1 blockade. Abemaciclib monotherapy resulted in tumor growth delay that was associated with an increased T cell inflammatory signature in tumors. Combination with anti-PD-L1 therapy led to complete tumor regressions and immunological memory, accompanied by enhanced antigen presentation, a T cell inflamed phenotype, and enhanced cell cycle control. In vitro, treatment with abemaciclib resulted in increased activation of human T cells and upregulated expression of antigen presentation genes in MCF-7 breast cancer cells. These data collectively support the clinical investigation of the combination of abemaciclib with agents such as anti-PD-L1 that modulate T cell anti-tumor immunity. : Schaer, Beckmann et al. describe unique immune-modulating properties of abemaciclib that include upregulation of antigen presentation on tumor cells and increased T cell activation. These activities synergize with anti-PD-L1 therapy to further enhance immune activation, including macrophage and DC antigen presentation, and also lead to a reciprocal increase in abemaciclib-dependent cell cycle gene regulation. Keywords: CDK4/6, abemaciclib, PD-1, PD-L1, combination immunotherapy, cancer

Published

2018

5. High-content molecular profiling of T-cell therapy in oncology

Author

Ruslan Novosiadly and Michael Kalos

Subjects

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

Abstract

Recent clinical data have revealed the remarkable potential for T-cell-modulating agents to induce potent and durable responses in a subset of cancer patients. In this review, we discuss molecular approaches, platforms, and strategies that enable a broader interrogation of the activity of agents that modulate the activity of tumor-specific T cells, to more comprehensively understand how and why the agents succeed and fail, as well as examples of data sets generated in clinical trials that have provided important insights into the biological activity of T-cell therapies and that support further rational development of this exciting treatment modality.

Published

2016

6. Correction to: Discovery and preclinical characterization of the antagonist anti-PD-L1 monoclonal antibody LY3300054

Author

Yiwen Li, Carmine Carpenito, George Wang, David Surguladze, Amelie Forest, Maria Malabunga, Mary Murphy, Yiwei Zhang, Andreas Sonyi, Darin Chin, Douglas Burtrum, Ivan Inigo, Anthony Pennello, Leyi Shen, Laurent Malherbe, Xinlei Chen, Gerald Hall, Jaafar N. Haidar, Dale L. Ludwig, Ruslan D. Novosiadly, and Michael Kalos

Subjects

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

Abstract

Unfortunately, after publication of this article [1], it was noticed that corrections to the legends of Figs. 1 and 2 were not correctly incorporated. The correct legends can be seen below.

Published

2018

7. Data from Bispecific Targeting of PD-1 and PD-L1 Enhances T-cell Activation and Antitumor Immunity

Author

Michael Kalos, Dale L. Ludwig, Gregory D. Plowman, Christopher M. Moxham, Ruslan D. Novosiadly, Jaafar N. Haidar, Andreas Sonyi, Darin Chin, Stacy Torgerson, Bing Han, Yanbin Lao, Tim Bailey, Danielle K. Bulaon, Yiwei Zhang, Xinlei Chen, Michael Topper, Sagit Hindi, Krishnadatt Persaud, Anthony L. Pennello, David Surguladze, Ivan Inigo, George Wang, Yang Shen, Scott W. Eastman, Carmine Carpenito, Maria Malabunga, Yiwen Li, and Helen Kotanides

Abstract

The programmed cell death protein 1 receptor (PD-1) and programmed death ligand 1 (PD-L1) coinhibitory pathway suppresses T-cell–mediated immunity. We hypothesized that cotargeting of PD-1 and PD-L1 with a bispecific antibody molecule could provide an alternative therapeutic approach, with enhanced antitumor activity, compared with monospecific PD-1 and PD-L1 antibodies. Here, we describe LY3434172, a bispecific IgG1 mAb with ablated Fc immune effector function that targets both human PD-1 and PD-L1. LY3434172 fully inhibited the major inhibitory receptor–ligand interactions in the PD-1 pathway. LY3434172 enhanced functional activation of T cells in vitro compared with the parent anti–PD-1 and anti–PD-L1 antibody combination or respective monotherapies. In mouse tumor models reconstituted with human immune cells, LY3434172 therapy induced dramatic and potent antitumor activity compared with each parent antibody or their combination. Collectively, these results demonstrated the enhanced immunomodulatory (immune blockade) properties of LY3434172, which improved antitumor immune response in preclinical studies, thus supporting its evaluation as a novel bispecific cancer immunotherapy.

Published

2023

8. Supplementary Data File from Bispecific Targeting of PD-1 and PD-L1 Enhances T-cell Activation and Antitumor Immunity

Author

Michael Kalos, Dale L. Ludwig, Gregory D. Plowman, Christopher M. Moxham, Ruslan D. Novosiadly, Jaafar N. Haidar, Andreas Sonyi, Darin Chin, Stacy Torgerson, Bing Han, Yanbin Lao, Tim Bailey, Danielle K. Bulaon, Yiwei Zhang, Xinlei Chen, Michael Topper, Sagit Hindi, Krishnadatt Persaud, Anthony L. Pennello, David Surguladze, Ivan Inigo, George Wang, Yang Shen, Scott W. Eastman, Carmine Carpenito, Maria Malabunga, Yiwen Li, and Helen Kotanides

Abstract

Supplementary Figures 1-9 and Supplementary Tables 1-3

Published

2023

9. Figure S3 from Characterization of 7A5: A Human CD137 (4-1BB) Receptor Binding Monoclonal Antibody with Differential Agonist Properties That Promotes Antitumor Immunity

Author

Michael Kalos, Gregory D. Plowman, Dale L. Ludwig, Ruslan D. Novosiadly, Douglas Burtrum, Yiwei Zhang, Prachi Sharma, Lauren Boucher, Michael Topper, Andreas Sonyi, Darin Chin, Xinlei Chen, Amelie Forest, Anthony L. Pennello, Ivan Inigo, Leyi Shen, Colleen Burns, Jaafar N. Haidar, David Surguladze, Jingxing Li, Juqun Shen, Carmine Carpenito, Maria B. Lebron, Rose Marie Sattler, and Helen Kotanides

Abstract

Figure S3 shows CD137 receptor modulation

Published

2023

10. Supplemental Materials, Figures 1 - 4, Tables 1 - 4 from Mesothelin-Specific Chimeric Antigen Receptor mRNA-Engineered T Cells Induce Antitumor Activity in Solid Malignancies

Author

Carl H. June, Michael Kalos, Steven M. Albelda, Bruce L. Levine, Yangbing Zhao, Anne Chew, Gabriela Plesa, Michael C. Soulen, Drew A. Torigian, Marcela V. Maus, Andrew R. Haas, and Gregory L. Beatty

Abstract

Fig. S1. CARTmeso cell manufacturing and treatment schedules. Fig. S2. Detection of human anti-chimeric antibody responses in patients post-CARTmeso cell infusion. Fig. S3. Serum cytokines and chemokines in PDA patient 21211-101. Fig. S4. CARTmeso cytolytic activity against allogeneic and autologous pancreatic cancer cell lines Table S1. Patient demographics. Table S2. Treatment-related adverse events. Table S3. Protoarray analysis of serum samples from mesothelioma patient 17510-105 Table S4. Protoarray analysis of serum samples from pancreatic cancer patient 21211-101

Published

2023

11. Table S2 from Characterization of 7A5: A Human CD137 (4-1BB) Receptor Binding Monoclonal Antibody with Differential Agonist Properties That Promotes Antitumor Immunity

Author

Michael Kalos, Gregory D. Plowman, Dale L. Ludwig, Ruslan D. Novosiadly, Douglas Burtrum, Yiwei Zhang, Prachi Sharma, Lauren Boucher, Michael Topper, Andreas Sonyi, Darin Chin, Xinlei Chen, Amelie Forest, Anthony L. Pennello, Ivan Inigo, Leyi Shen, Colleen Burns, Jaafar N. Haidar, David Surguladze, Jingxing Li, Juqun Shen, Carmine Carpenito, Maria B. Lebron, Rose Marie Sattler, and Helen Kotanides

Abstract

Table S2 shows human immune effector ADCC and CDC activity EC50 (nM)

Published

2023

12. Supplementary Materials and Methods from Characterization of 7A5: A Human CD137 (4-1BB) Receptor Binding Monoclonal Antibody with Differential Agonist Properties That Promotes Antitumor Immunity

Author

Michael Kalos, Gregory D. Plowman, Dale L. Ludwig, Ruslan D. Novosiadly, Douglas Burtrum, Yiwei Zhang, Prachi Sharma, Lauren Boucher, Michael Topper, Andreas Sonyi, Darin Chin, Xinlei Chen, Amelie Forest, Anthony L. Pennello, Ivan Inigo, Leyi Shen, Colleen Burns, Jaafar N. Haidar, David Surguladze, Jingxing Li, Juqun Shen, Carmine Carpenito, Maria B. Lebron, Rose Marie Sattler, and Helen Kotanides

Abstract

Supplementary Materials and Methods

Published

2023

13. Data from Identification of Chimeric Antigen Receptors That Mediate Constitutive or Inducible Proliferation of T Cells

Author

Carl H. June, Michael C. Milone, Michael Kalos, Yangbing Zhao, Chrystal M. Paulos, F. Brad Johnson, Jesse M. Platt, Laurence J.N. Cooper, Sonny Ang, Avery D. Posey, Shannon E. McGettigan, Sonia Guedan, Omkar U. Kawalekar, John Scholler, Shinichiro Motohashi, Carmine Carpenito, Maria Ciocca Basil, Jihyun Lee, and Matthew J. Frigault

Abstract

This study compared second-generation chimeric antigen receptors (CAR) encoding signaling domains composed of CD28, ICOS, and 4-1BB (TNFRSF9). Here, we report that certain CARs endow T cells with the ability to undergo long-term autonomous proliferation. Transduction of primary human T cells with lentiviral vectors encoding some of the CARs resulted in sustained proliferation for up to 3 months following a single stimulation through the T-cell receptor (TCR). Sustained numeric expansion was independent of cognate antigen and did not require the addition of exogenous cytokines or feeder cells after a single stimulation of the TCR and CD28. Results from gene array and functional assays linked sustained cytokine secretion and expression of T-bet (TBX21), EOMES, and GATA-3 to the effect. Sustained expression of the endogenous IL2 locus has not been reported in primary T cells. Sustained proliferation was dependent on CAR structure and high expression, the latter of which was necessary but not sufficient. The mechanism involves constitutive signaling through NF-κB, AKT, ERK, and NFAT. The propagated CAR T cells retained a diverse TCR repertoire, and cellular transformation was not observed. The CARs with a constitutive growth phenotype displayed inferior antitumor effects and engraftment in vivo. Therefore, the design of CARs that have a nonconstitutive growth phenotype may be a strategy to improve efficacy and engraftment of CAR T cells. The identification of CARs that confer constitutive or nonconstitutive growth patterns may explain observations that CAR T cells have differential survival patterns in clinical trials. Cancer Immunol Res; 3(4); 356–67. ©2015 AACR.

Published

2023

14. Supplemental Methods, Tables 1 - 3, Figures 1 - 16 from Identification of Chimeric Antigen Receptors That Mediate Constitutive or Inducible Proliferation of T Cells

Author

Carl H. June, Michael C. Milone, Michael Kalos, Yangbing Zhao, Chrystal M. Paulos, F. Brad Johnson, Jesse M. Platt, Laurence J.N. Cooper, Sonny Ang, Avery D. Posey, Shannon E. McGettigan, Sonia Guedan, Omkar U. Kawalekar, John Scholler, Shinichiro Motohashi, Carmine Carpenito, Maria Ciocca Basil, Jihyun Lee, and Matthew J. Frigault

Abstract

Table S1: Expression of c-Met and Mesothelin mRNA in activated CD4 T Cells. Table S2: Genes upregulated in CD4+ T cells of healthy human adults expressing c-Met IgG4 continuous CAR or CD19 CD8α non-continuous CAR on day 11. Table S3: Genes downregulated in CD4+ T cells of healthy human adults expressing c-Met IgG4 continuous CAR or CD19 CD8α non-continuous CAR on day 11. Figure S1. Chimeric antigen receptor constructs and relative expression levels. Figure S2. CAR T cells with constitutive proliferation retain specific cytotoxicity. Figure S3. c-Met and mesothelin expression are not detected on human CD4+ T cells. Figure S4. Supernatant from CARs displaying the growth phenotype induces activation of naïve unstimulated T cells. Figure S5.The role of fetal bovine serum in the constitutive growth of c-Met IgG4 28ζ CAR T cells. Figure S6. A) CARs with a constitutive growth phenotype display a unique gene signature. B) CAR T cells with a constitutive growth phenotype display distinct transcription factors. Figure S7. Genome-wide microarray analysis of CAR T cells with constitutive proliferation. Figure S8. Distinct gene expression signature of CAR T cells with constitutive proliferation. Figure S9. CAR T cells with constitutive proliferation have ligand-independent NFAT activation. Figure S10. Transgene expression levels are sufficient to convey the constitutive CAR growth phenotype. Figure S11. Constitutive CAR T cell proliferation results in differentiation and evolution of a distinct cell surface phenotype. Figure S12. Effects of stimulation and cell culture on differentiation of non-transduced T cells. Figure S13. Temporal patterns of telomere restriction fragment length (TRF) in continuous CAR T cells and mock transduced T cells. Figure S14. CAR T cells with a constitutive growth phenotype retain a diverse TCR Vβ repertoire. Figure S15. Engraftment and proliferation of continuous CAR T cells in NSG mice. Figure S16. PGK100 promoter results in antigen driven accumulation of CAR T cells in tissue but not blood.

Published

2023

15. Data from Mesothelin-Specific Chimeric Antigen Receptor mRNA-Engineered T Cells Induce Antitumor Activity in Solid Malignancies

Author

Carl H. June, Michael Kalos, Steven M. Albelda, Bruce L. Levine, Yangbing Zhao, Anne Chew, Gabriela Plesa, Michael C. Soulen, Drew A. Torigian, Marcela V. Maus, Andrew R. Haas, and Gregory L. Beatty

Abstract

Off-target toxicity due to the expression of target antigens in normal tissue represents a major obstacle to the use of chimeric antigen receptor (CAR)-engineered T cells for treatment of solid malignancies. To circumvent this issue, we established a clinical platform for engineering T cells with transient CAR expression by using in vitro transcribed mRNA encoding a CAR that includes both the CD3-ζ and 4-1BB costimulatory domains. We present two case reports from ongoing trials indicating that adoptive transfer of mRNA CAR T cells that target mesothelin (CARTmeso cells) is feasible and safe without overt evidence of off-tumor on-target toxicity against normal tissues. CARTmeso cells persisted transiently within the peripheral blood after intravenous administration and migrated to primary and metastatic tumor sites. Clinical and laboratory evidence of antitumor activity was shown in both patients, and the CARTmeso cells elicited an antitumor immune response revealed by the development of novel antiself antibodies. These data show the potential of using mRNA-engineered T cells to evaluate, in a controlled manner, potential off-tumor on-target toxicities and show that short-lived CAR T cells can induce epitope spreading and mediate antitumor activity in patients with advanced cancer. Thus, these findings support the development of mRNA CAR-based strategies for carcinoma and other solid tumors. Cancer Immunol Res; 2(2); 112–20. ©2013 AACR.

Published

2023

16. Supplementary Figure Legends & Tables from The Folate Pathway Inhibitor Pemetrexed Pleiotropically Enhances Effects of Cancer Immunotherapy

Author

Ruslan D. Novosiadly, Michael Kalos, Gerald E. Hall, David Surguladze, Gregory P. Donoho, Thompson N. Doman, Jason R. Manro, Frank C. Dorsey, Krishna Chodavarapu, Manisha Brahmachary, Bo Tan, Alexander Nikolayev, Kenneth D. Roth, Carmine Carpenito, Shuang Luo, Xiaodong Huang, Bonita D. Jones, Catalina M. Meyer, Yanxia Li, Andrew Capen, Darin Chin, Andreas Sonyi, Erik R. Rasmussen, Zhao Hai Lu, Nelusha Amaladas, Sandaruwan Geeganage, and David A. Schaer

Abstract

Supplementary Figure Legends & Tables

Published

2023

17. Supplementary Data from The Folate Pathway Inhibitor Pemetrexed Pleiotropically Enhances Effects of Cancer Immunotherapy

Author

Ruslan D. Novosiadly, Michael Kalos, Gerald E. Hall, David Surguladze, Gregory P. Donoho, Thompson N. Doman, Jason R. Manro, Frank C. Dorsey, Krishna Chodavarapu, Manisha Brahmachary, Bo Tan, Alexander Nikolayev, Kenneth D. Roth, Carmine Carpenito, Shuang Luo, Xiaodong Huang, Bonita D. Jones, Catalina M. Meyer, Yanxia Li, Andrew Capen, Darin Chin, Andreas Sonyi, Erik R. Rasmussen, Zhao Hai Lu, Nelusha Amaladas, Sandaruwan Geeganage, and David A. Schaer

Abstract

Figure S1. Efficacy of pemetrexed in Lewis Lung carcinoma model and metabolomic analysis of MC38 tumor bearing mice treated with 50 mg/kg of pemetrexed Figure S2. T cell inflamed phenotype induced by pemetrexed is modestly reduced in tumors upon combination with cisplatin Figure S3. Combination Effects of pemetrexed -/+ anti-PD-L1 in MC38, LLC and Colon26 tumor models Figure S4 (A) Mice bearing Colon26 tumors were treated starting 10 days after tumor implantation with pemetrexed (50 mg/kg, 5 days on, 2 days off, IP) and/or anti-PD-L1 (αPD-L1) (500 ug/mouse, weekly IP), and tumors were isolated after 14 days of treatment and single cell suspensions were subjected to flow cytometry analysis. FACS plots show representative data of intra-tumor CD45+ tumor-infiltrating lymphocyte (TIL) T cell (CD3+) and Myeloid cell (CD11b+) subsets frequencies; and percentage of Ki67+ CD4+ T effector cells based on the gating scheme indicated. (B) Spleens, TDLNs and tumors were isolated and antigen specific T cell responses were measured by IFNγ ELISpot, gp70 Tetramer staining (Tet) and Intracellular cytokine staining. (Left) CD8 T cells isolated from pooled spleens and TDLNs from individual mice were cultured alone (control) with irrelevant BALB/c tumor EMT6 or cognate Colon26 tumor cells overnight and number of IFNγ producing T cells was measured by ELISpot. (Middle) Freshly isolated CD8+ T cells from spleens and TDLNs were assessed for % of gp70 Tet+ cells. (Right) Freshly isolated tumors single cell suspensions were stimulated with PMA/ phorbol myristate acetate (PMA) and ionomycin with monensin for 4 hrs and the % of TNF-alpha positive and gp70 Tet+ CD8 T cells were measured from the Live CD45+, CD3+ T cells by FACS. Figure S5. Concordance between QuantiGene and nCounter gene expression data for in vitro activated T cells treated in the presence or absence of pemetrexed (related to Figure 6F). Supplementary Table 1. Ingenuity pathway analysis (IPA) of MC38 tumors treated with pemetrexed or paclitaxel with or without carboplatin Supplementary Table 2: IPA results for Colon26 experiment in Figure 4 sorted by functional class. Pemetrexed monotherapy in this experiment at this timepoint did not have enough differentially expressed genes to generate IPA results.

Published

2023

18. Supplementary Figure 2 from Combination Immunotherapy after ASCT for Multiple Myeloma Using MAGE-A3/Poly-ICLC Immunizations Followed by Adoptive Transfer of Vaccine-Primed and Costimulated Autologous T Cells

Author

Carl H. June, Bruce L. Levine, Andres M. Salazar, Scott E. Strome, Todd Milliron, Kathleen Ruehle, Zhaohui Zheng, Andrea Brennan, Naseem Kerr, Sunita Philip, Dean Mann, Alan Cross, Patricia Tsao, Gorgun Akpek, Saul Yanovich, Ashraf Badros, Brendan M. Weiss, Hong-Bin Fang, Ling Cai, Michael Kalos, Yin Yan Xu, Dan T. Vogl, Edward A. Stadtmauer, Nicole A. Aqui, and Aaron P. Rapoport

Abstract

PDF file - 1065KB, Supplemental Data for Figure 4.

Published

2023

19. Supplementary Figure S2 from A Dendritic Cell Vaccine Pulsed with Autologous Hypochlorous Acid-Oxidized Ovarian Cancer Lysate Primes Effective Broad Antitumor Immunity: From Bench to Bedside

Author

George Coukos, Rosemarie Mick, Daniel J. Powell, Drew A. Torigian, Brian J. Czerniecki, Michael Kalos, Bruce L. Levine, Harvey L. Nisenbaum, Lori Smith, Gina M. Mantia-Smaldone, Kathleen Montone, Nikolaos Svoronos, Gregory T. Motz, Andrea R. Hagemann, Janos Tanyi, Lana E. Kandalaft, and Cheryl Lai-Lai Chiang

Abstract

Supplementary Figure S2 - PDF file 84K, Phenotype of DCs following lysate-pulsing (i.e. HOCl-L, UVB-L or FTL), and activation with LPS and IFN-gamma. Unpulsed, mature (mDC) or immature DCs (iDC) served as controls. Data was presented as mean plus-minus SEM

Published

2023

20. Supplementary Materials, Methods, Figures and Table legends from A Dendritic Cell Vaccine Pulsed with Autologous Hypochlorous Acid-Oxidized Ovarian Cancer Lysate Primes Effective Broad Antitumor Immunity: From Bench to Bedside

Author

George Coukos, Rosemarie Mick, Daniel J. Powell, Drew A. Torigian, Brian J. Czerniecki, Michael Kalos, Bruce L. Levine, Harvey L. Nisenbaum, Lori Smith, Gina M. Mantia-Smaldone, Kathleen Montone, Nikolaos Svoronos, Gregory T. Motz, Andrea R. Hagemann, Janos Tanyi, Lana E. Kandalaft, and Cheryl Lai-Lai Chiang

Abstract

Supplementary Materials, Methods, Figures and Table legends - PDF file 87K, Supplementary file giving details of supplementary materials and methods, figure legends and table legends

Published

2023

21. Supplementary Figure Legends from Combination Immunotherapy after ASCT for Multiple Myeloma Using MAGE-A3/Poly-ICLC Immunizations Followed by Adoptive Transfer of Vaccine-Primed and Costimulated Autologous T Cells

Author

Carl H. June, Bruce L. Levine, Andres M. Salazar, Scott E. Strome, Todd Milliron, Kathleen Ruehle, Zhaohui Zheng, Andrea Brennan, Naseem Kerr, Sunita Philip, Dean Mann, Alan Cross, Patricia Tsao, Gorgun Akpek, Saul Yanovich, Ashraf Badros, Brendan M. Weiss, Hong-Bin Fang, Ling Cai, Michael Kalos, Yin Yan Xu, Dan T. Vogl, Edward A. Stadtmauer, Nicole A. Aqui, and Aaron P. Rapoport

Abstract

PDF file - 48KB

Published

2023

22. Supplementary Table S1 from A Dendritic Cell Vaccine Pulsed with Autologous Hypochlorous Acid-Oxidized Ovarian Cancer Lysate Primes Effective Broad Antitumor Immunity: From Bench to Bedside

Author

George Coukos, Rosemarie Mick, Daniel J. Powell, Drew A. Torigian, Brian J. Czerniecki, Michael Kalos, Bruce L. Levine, Harvey L. Nisenbaum, Lori Smith, Gina M. Mantia-Smaldone, Kathleen Montone, Nikolaos Svoronos, Gregory T. Motz, Andrea R. Hagemann, Janos Tanyi, Lana E. Kandalaft, and Cheryl Lai-Lai Chiang

Abstract

Supplementary Table S1 - PDF file 191K, Cytokine and chemokine productions from DCs of ovarian cancer subjects that were loaded with HOCl-oxidized autologous whole tumor lysate and matured with LPS and IFN-gamma

Published

2023

23. Data from The Addition of the BTK Inhibitor Ibrutinib to Anti-CD19 Chimeric Antigen Receptor T Cells (CART19) Improves Responses against Mantle Cell Lymphoma

Author

Mariusz A. Wasik, Saar Gill, Carl H. June, Michael Kalos, Stephen J. Schuster, Anthony Mato, Simon F. Lacey, Michael Milone, Omkar U. Kawalekar, Michael Klichinsky, Selene Nunez-Cruz, Xiaobin Liu, Marcela V. Maus, Qian Zhang, Sohail Qayyum, Joseph A. Fraietta, Olga Shestova, Saad S. Kenderian, and Marco Ruella

Abstract

Purpose: Responses to therapy with chimeric antigen receptor T cells recognizing CD19 (CART19, CTL019) may vary by histology. Mantle cell lymphoma (MCL) represents a B-cell malignancy that remains incurable despite novel therapies such as the BTK inhibitor ibrutinib, and where data from CTL019 therapy are scant. Using MCL as a model, we sought to build upon the outcomes from CTL019 and from ibrutinib therapy by combining these in a rational manner.Experimental Design: MCL cell lines and primary MCL samples were combined with autologous or normal donor-derived anti-CD19 CAR T cells along with ibrutinib. The effect of the combination was studied in vitro and in mouse xenograft models.Results: MCL cells strongly activated multiple CTL019 effector functions, and MCL killing by CTL019 was further enhanced in the presence of ibrutinib. In a xenograft MCL model, we showed superior disease control in the CTL019- as compared with ibrutinib-treated mice (median survival not reached vs. 95 days, P < 0.005) but most mice receiving CTL019 monotherapy eventually relapsed. Therefore, we added ibrutinib to CTL019 and showed that 80% to 100% of mice in the CTL019 + ibrutinib arm and 0% to 20% of mice in the CTL019 arm, respectively, remained in long-term remission (P < 0.05).Conclusions: Combining CTL019 with ibrutinib represents a rational way to incorporate two of the most recent therapies in MCL. Our findings pave the way to a two-pronged therapeutic strategy in patients with MCL and other types of B-cell lymphoma. Clin Cancer Res; 22(11); 2684–96. ©2016 AACR.

Published

2023

24. Data from A Dendritic Cell Vaccine Pulsed with Autologous Hypochlorous Acid-Oxidized Ovarian Cancer Lysate Primes Effective Broad Antitumor Immunity: From Bench to Bedside

Author

George Coukos, Rosemarie Mick, Daniel J. Powell, Drew A. Torigian, Brian J. Czerniecki, Michael Kalos, Bruce L. Levine, Harvey L. Nisenbaum, Lori Smith, Gina M. Mantia-Smaldone, Kathleen Montone, Nikolaos Svoronos, Gregory T. Motz, Andrea R. Hagemann, Janos Tanyi, Lana E. Kandalaft, and Cheryl Lai-Lai Chiang

Abstract

Purpose: Whole tumor lysates are promising antigen sources for dendritic cell (DC) therapy as they contain many relevant immunogenic epitopes to help prevent tumor escape. Two common methods of tumor lysate preparations are freeze-thaw processing and UVB irradiation to induce necrosis and apoptosis, respectively. Hypochlorous acid (HOCl) oxidation is a new method for inducing primary necrosis and enhancing the immunogenicity of tumor cells.Experimental Design: We compared the ability of DCs to engulf three different tumor lysate preparations, produce T-helper 1 (TH1)-priming cytokines and chemokines, stimulate mixed leukocyte reactions (MLR), and finally elicit T-cell responses capable of controlling tumor growth in vivo.Results: We showed that DCs engulfed HOCl-oxidized lysate most efficiently stimulated robust MLRs, and elicited strong tumor-specific IFN-γ secretions in autologous T cells. These DCs produced the highest levels of TH1-priming cytokines and chemokines, including interleukin (IL)-12. Mice vaccinated with HOCl-oxidized ID8-ova lysate–pulsed DCs developed T-cell responses that effectively controlled tumor growth. Safety, immunogenicity of autologous DCs pulsed with HOCl-oxidized autologous tumor lysate (OCDC vaccine), clinical efficacy, and progression-free survival (PFS) were evaluated in a pilot study of five subjects with recurrent ovarian cancer. OCDC vaccination produced few grade 1 toxicities and elicited potent T-cell responses against known ovarian tumor antigens. Circulating regulatory T cells and serum IL-10 were also reduced. Two subjects experienced durable PFS of 24 months or more after OCDC.Conclusions: This is the first study showing the potential efficacy of a DC vaccine pulsed with HOCl-oxidized tumor lysate, a novel approach in preparing DC vaccine that is potentially applicable to many cancers. Clin Cancer Res; 19(17); 4801–15. ©2013 AACR.

Published

2023

25. Supplementary Table 1 from Combination Immunotherapy after ASCT for Multiple Myeloma Using MAGE-A3/Poly-ICLC Immunizations Followed by Adoptive Transfer of Vaccine-Primed and Costimulated Autologous T Cells

Author

Carl H. June, Bruce L. Levine, Andres M. Salazar, Scott E. Strome, Todd Milliron, Kathleen Ruehle, Zhaohui Zheng, Andrea Brennan, Naseem Kerr, Sunita Philip, Dean Mann, Alan Cross, Patricia Tsao, Gorgun Akpek, Saul Yanovich, Ashraf Badros, Brendan M. Weiss, Hong-Bin Fang, Ling Cai, Michael Kalos, Yin Yan Xu, Dan T. Vogl, Edward A. Stadtmauer, Nicole A. Aqui, and Aaron P. Rapoport

Abstract

PDF file - 54KB, Adverse Events Table.

Published

2023

26. Supplementary Figure 1 from Combination Immunotherapy after ASCT for Multiple Myeloma Using MAGE-A3/Poly-ICLC Immunizations Followed by Adoptive Transfer of Vaccine-Primed and Costimulated Autologous T Cells

Author

Carl H. June, Bruce L. Levine, Andres M. Salazar, Scott E. Strome, Todd Milliron, Kathleen Ruehle, Zhaohui Zheng, Andrea Brennan, Naseem Kerr, Sunita Philip, Dean Mann, Alan Cross, Patricia Tsao, Gorgun Akpek, Saul Yanovich, Ashraf Badros, Brendan M. Weiss, Hong-Bin Fang, Ling Cai, Michael Kalos, Yin Yan Xu, Dan T. Vogl, Edward A. Stadtmauer, Nicole A. Aqui, and Aaron P. Rapoport

Abstract

PDF file - 198KB, MAGE-A3 Trojan Peptide Vaccine Reactogenicity.

Published

2023

27. Supplementary Figure 3 from Combination Immunotherapy after ASCT for Multiple Myeloma Using MAGE-A3/Poly-ICLC Immunizations Followed by Adoptive Transfer of Vaccine-Primed and Costimulated Autologous T Cells

Author

Carl H. June, Bruce L. Levine, Andres M. Salazar, Scott E. Strome, Todd Milliron, Kathleen Ruehle, Zhaohui Zheng, Andrea Brennan, Naseem Kerr, Sunita Philip, Dean Mann, Alan Cross, Patricia Tsao, Gorgun Akpek, Saul Yanovich, Ashraf Badros, Brendan M. Weiss, Hong-Bin Fang, Ling Cai, Michael Kalos, Yin Yan Xu, Dan T. Vogl, Edward A. Stadtmauer, Nicole A. Aqui, and Aaron P. Rapoport

Abstract

PDF file - 40KB, ELISA Antibody Responses for the PCV (Prevnar-13(registered trademark)).

Published

2023

28. Data from Combination Immunotherapy after ASCT for Multiple Myeloma Using MAGE-A3/Poly-ICLC Immunizations Followed by Adoptive Transfer of Vaccine-Primed and Costimulated Autologous T Cells

Author

Carl H. June, Bruce L. Levine, Andres M. Salazar, Scott E. Strome, Todd Milliron, Kathleen Ruehle, Zhaohui Zheng, Andrea Brennan, Naseem Kerr, Sunita Philip, Dean Mann, Alan Cross, Patricia Tsao, Gorgun Akpek, Saul Yanovich, Ashraf Badros, Brendan M. Weiss, Hong-Bin Fang, Ling Cai, Michael Kalos, Yin Yan Xu, Dan T. Vogl, Edward A. Stadtmauer, Nicole A. Aqui, and Aaron P. Rapoport

Abstract

Purpose: Myeloma-directed cellular immune responses after autologous stem cell transplantation (ASCT) may reduce relapse rates. We studied whether coinjecting the TLR-3 agonist and vaccine adjuvant Poly-ICLC with a MAGE-A3 peptide vaccine was safe and would elicit a high frequency of vaccine-directed immune responses when combined with vaccine-primed and costimulated autologous T cells.Experimental Design: In a phase II clinical trial (NCT01245673), we evaluated the safety and activity of ex vivo expanded autologous T cells primed in vivo using a MAGE-A3 multipeptide vaccine (compound GL-0817) combined with Poly-ICLC (Hiltonol), granulocyte macrophage colony-stimulating factor (GM-CSF) ± montanide. Twenty-seven patients with active and/or high-risk myeloma received autografts followed by anti-CD3/anti-CD28–costimulated autologous T cells, accompanied by MAGE-A3 peptide immunizations before T-cell collection and five times after ASCT. Immune responses to the vaccine were evaluated by cytokine production (all patients), dextramer binding to CD8+ T cells, and ELISA performed serially after transplant.Results: T-cell infusions were well tolerated, whereas vaccine injection site reactions occurred in >90% of patients. Two of nine patients who received montanide developed sterile abscesses; however, this did not occur in the 18 patients who did not receive montanide. Dextramer staining demonstrated MAGE-A3–specific CD8 T cells in 7 of 8 evaluable HLA-A2+ patients (88%), whereas vaccine-specific cytokine-producing T cells were generated in 19 of 25 patients (76%). Antibody responses developed in 7 of 9 patients (78%) who received montanide and only weakly in 2 of 18 patients (11%) who did not. The 2-year overall survival was 74% [95% confidence interval (CI), 54%–100%] and 2-year event-free survival was 56% (95% CI, 37%–85%).Conclusions: A high frequency of vaccine-specific T-cell responses were generated after transplant by combining costimulated autologous T cells with a Poly-ICLC/GM-CSF–primed MAGE-A3 vaccine. Clin Cancer Res; 20(5); 1355–65. ©2013 AACR.

Published

2023

29. Supplementary Methods, Supplementary Figure 1-8, Supplementary Table 1 from The Addition of the BTK Inhibitor Ibrutinib to Anti-CD19 Chimeric Antigen Receptor T Cells (CART19) Improves Responses against Mantle Cell Lymphoma

Author

Mariusz A. Wasik, Saar Gill, Carl H. June, Michael Kalos, Stephen J. Schuster, Anthony Mato, Simon F. Lacey, Michael Milone, Omkar U. Kawalekar, Michael Klichinsky, Selene Nunez-Cruz, Xiaobin Liu, Marcela V. Maus, Qian Zhang, Sohail Qayyum, Joseph A. Fraietta, Olga Shestova, Saad S. Kenderian, and Marco Ruella

Abstract

Supplementary Methods: Fluorescence in situ hybridization (FISH); MTT (3-(4,5-dimethylthiazolyl-2)-2,5-diphenyltetrazolium bromide) enzymatic conversion assay; Western blot analysis; Multiparametric flow cytometry; Table S1. List of the antibodies used for multiparametric flow cytometry; Degranulation assay; Proliferation assay; Cytotoxicity assays; Cytokine measurements; Animal experiments; Figure S1. Different sensitivity to ibrutinib in hematological cell lines; Figure S2. MCL-RL engrafted mice: tumor burden and histology; Figure S3. CTL019 design and production; Figure S4. CTL019 cell production from primary MCL samples; Figure S5. Effect of ibrutinib in T cell function in vitro and in vivo; Figure S5. Effect of ibrutinib in T cell function in vitro and in vivo. A. CTL019 proliferation assay in the presence of ibrutinib;Figure S6. Peripheral blood T cell subsets in mice treated with CART19 or CART19-ibrutinib; Figure S7. CXCR4 and inhibitory/costimulatory receptor expression in peripheral blood of mice treated with CART19 or CART19-ibrutinib; Figure S8. A. Ibrutinib did not enhance the anti-tumor activity of control untransduced T cells.

Published

2023

30. Data from The Folate Pathway Inhibitor Pemetrexed Pleiotropically Enhances Effects of Cancer Immunotherapy

Author

Ruslan D. Novosiadly, Michael Kalos, Gerald E. Hall, David Surguladze, Gregory P. Donoho, Thompson N. Doman, Jason R. Manro, Frank C. Dorsey, Krishna Chodavarapu, Manisha Brahmachary, Bo Tan, Alexander Nikolayev, Kenneth D. Roth, Carmine Carpenito, Shuang Luo, Xiaodong Huang, Bonita D. Jones, Catalina M. Meyer, Yanxia Li, Andrew Capen, Darin Chin, Andreas Sonyi, Erik R. Rasmussen, Zhao Hai Lu, Nelusha Amaladas, Sandaruwan Geeganage, and David A. Schaer

Abstract

Purpose:Combination strategies leveraging chemotherapeutic agents and immunotherapy have held the promise as a method to improve benefit for patients with cancer. However, most chemotherapies have detrimental effects on immune homeostasis and differ in their ability to induce immunogenic cell death (ICD). The approval of pemetrexed and carboplatin with anti-PD-1 (pembrolizumab) for treatment of non–small cell lung cancer represents the first approved chemotherapy and immunotherapy combination. Although the clinical data suggest a positive interaction between pemetrexed-based chemotherapy and immunotherapy, the underlying mechanism remains unknown.Experimental Design:Mouse tumor models (MC38, Colon26) and high-content biomarker studies (flow cytometry, Quantigene Plex, and nCounter gene expression analysis) were deployed to obtain insights into the mechanistic rationale behind the efficacy observed with pemetrexed/anti-PD-L1 combination. ICD in tumor cell lines was assessed by calreticulin and HMGB-1 immunoassays, and metabolic function of primary T cells was evaluated by Seahorse analysis.Results:Pemetrexed treatment alone increased T-cell activation in mouse tumors in vivo, robustly induced ICD in mouse tumor cells and exerted T-cell–intrinsic effects exemplified by augmented mitochondrial function and enhanced T-cell activation in vitro. Increased antitumor efficacy and pronounced inflamed/immune activation were observed when pemetrexed was combined with anti-PD-L1.Conclusions:Pemetrexed augments systemic intratumor immune responses through tumor intrinsic mechanisms including immunogenic cell death, T-cell–intrinsic mechanisms enhancing mitochondrial biogenesis leading to increased T-cell infiltration/activation along with modulation of innate immune pathways, which are significantly enhanced in combination with PD-1 pathway blockade.See related commentary by Buque et al., p. 6890

Published

2023

31. Characterization of 7A5: A Human CD137 (4-1BB) Receptor Binding Monoclonal Antibody with Differential Agonist Properties That Promotes Antitumor Immunity

Author

Douglas Burtrum, Helen Kotanides, Leyi Shen, Darin Chin, Ruslan D. Novosiadly, Amelie Forest, Rose Marie Sattler, Xinlei Chen, Yiwei Zhang, Michael Topper, David Surguladze, Jingxing Li, Jaafar N. Haidar, Ivan Inigo, Gregory D. Plowman, Colleen A. Burns, Lauren Boucher, Andreas Sonyi, Prachi Sharma, Michael Kalos, Dale L. Ludwig, Maria B. Lebron, Anthony Pennello, Carmine Carpenito, and Juqun Shen

Subjects

0301 basic medicine, Agonist, Cancer Research, Lung Neoplasms, medicine.drug_class, T cell, Apoptosis, Mice, SCID, CD8-Positive T-Lymphocytes, Lymphocyte Activation, Monoclonal antibody, Epitope, Mice, Tumor Necrosis Factor Receptor Superfamily, Member 9, 03 medical and health sciences, 0302 clinical medicine, Immune system, Mice, Inbred NOD, Carcinoma, Non-Small-Cell Lung, Tumor Cells, Cultured, medicine, Animals, Humans, Receptor, Cell Proliferation, biology, Chemistry, CD137, NF-kappa B, Antibodies, Monoclonal, Xenograft Model Antitumor Assays, 030104 developmental biology, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Cancer research, biology.protein, Female, Antibody, Signal Transduction

Abstract

The CD137 receptor plays a key role in mediating immune response by promoting T cell proliferation, survival, and memory. Effective agonism of CD137 has the potential to reinvigorate potent antitumor immunity either alone or in combination with other immune-checkpoint therapies. In this study, we describe the discovery and characterization of a unique CD137 agonist, 7A5, a fully human IgG1 Fc effector-null monoclonal antibody. The biological properties of 7A5 were investigated through in vitro and in vivo studies. 7A5 binds CD137, and the binding epitope overlaps with the CD137L binding site based on structure. 7A5 engages CD137 receptor and activates NF-κB cell signaling independent of cross-linking or Fc effector function. In addition, T cell activation measured by cytokine IFNγ production is induced by 7A5 in peripheral blood mononuclear cell costimulation assay. Human tumor xenograft mouse models reconstituted with human immune cells were used to determine antitumor activity in vivo. Monotherapy with 7A5 inhibits tumor growth, and this activity is enhanced in combination with a PD-L1 antagonist antibody. Furthermore, the intratumoral immune gene expression signature in response to 7A5 is highly suggestive of enhanced T cell infiltration and activation. Taken together, these results demonstrate 7A5 is a differentiated CD137 agonist antibody with biological properties that warrant its further development as a cancer immunotherapy.

Published

2020

32. Treatment with a VEGFR-2 antibody results in intra-tumor immune modulation and enhances anti-tumor efficacy of PD-L1 blockade in syngeneic murine tumor models

Author

Yanxia Li, Nelusha Amaladas, Marguerita O’Mahony, Jason R. Manro, Ivan Inigo, Qi Li, Erik R. Rasmussen, Manisha Brahmachary, Thompson N. Doman, Gerald Hall, Michael Kalos, Ruslan Novosiadly, Oscar Puig, Bronislaw Pytowski, and David A. Schaer

Subjects

Vascular Endothelial Growth Factor A, Mice, Multidisciplinary, Cell Line, Tumor, Neoplasms, Tumor Microenvironment, Animals, Vascular Endothelial Growth Factor Receptor-2, B7-H1 Antigen

Abstract

Prolonged activation of vascular endothelial growth factor receptor-2 (VEGFR-2) due to mis-regulation of the VEGF pathway induces aberrant blood vessel expansion, which supports growth and survival of solid tumors. Therapeutic interventions that inhibit the VEGFR-2 pathway have therefore become a mainstay of cancer treatment. Non-clinical studies have recently revealed that blockade of angiogenesis can modulate the tumor microenvironment and enhance the efficacy of concurrent immune therapies. Ramucirumab is an FDA-approved anti-angiogenic antibody that inhibits VEGFR-2 and is currently being evaluated in clinical studies in combination with anti-programmed cell death (PD-1) axis checkpoint inhibitors (pembrolizumab, durvalumab, or sintilimab) across several cancer types. The purpose of this study is to establish a mechanistic basis for the enhanced activity observed in the combined blockade of VEGFR-2 and PD-1-axis pathways. Pre-clinical studies were conducted in murine tumor models known to be responsive to anti-PD-1 axis therapy, using monoclonal antibodies that block mouse VEGFR-2 and programmed death-ligand 1 (PD-L1). Combination therapy resulted in enhanced anti-tumor activity compared to anti-PD-L1 monotherapy. VEGFR-2 blockade at early timepoints post-anti-PD-L1 therapy resulted in a dose-dependent and transient enhanced infiltration of T cells, and establishment of immunological memory. VEGFR-2 blockade at later timepoints resulted in enhancement of anti-PD-L1-driven immune cell infiltration. VEGFR-2 and PD-L1 monotherapies induced both unique and overlapping patterns of immune gene expression, and combination therapy resulted in an enhanced immune activation signature. Collectively, these results provide new and actionable insights into the mechanisms by which concurrent VEGFR-2 and PD-L1 antibody therapy leads to enhanced anti-tumor efficacy.

Published

2021

33. Bispecific Targeting of PD-1 and PD-L1 Enhances T-cell Activation and Antitumor Immunity

Author

Bing Han, Yiwen Li, Carmine Carpenito, Andreas Sonyi, Jaafar N. Haidar, Anthony Pennello, Scott W. Eastman, Michael Kalos, Xinlei Chen, Gregory D. Plowman, Ruslan D. Novosiadly, Sagit Hindi, Timothy Bailey, Christopher M. Moxham, Krishnadatt Persaud, Dale L. Ludwig, Yiwei Zhang, Yanbin Lao, George Wang, Darin Chin, Helen Kotanides, David Surguladze, Yang Shen, Danielle Kathryn Bulaon, Stacy Torgerson, Maria Malabunga, Ivan Inigo, and Michael Topper

Subjects

0301 basic medicine, Cancer Research, medicine.drug_class, medicine.medical_treatment, T cell, T-Lymphocytes, Immunology, Programmed Cell Death 1 Receptor, CHO Cells, Mice, SCID, Monoclonal antibody, Lymphocyte Activation, B7-H1 Antigen, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, Cricetulus, Cancer immunotherapy, Immunity, Mice, Inbred NOD, PD-L1, Antibodies, Bispecific, medicine, Animals, Humans, Molecular Targeted Therapy, Receptor, biology, Chemistry, Xenograft Model Antitumor Assays, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cancer research, biology.protein, Female, Immunotherapy, Antibody

Abstract

The programmed cell death protein 1 receptor (PD-1) and programmed death ligand 1 (PD-L1) coinhibitory pathway suppresses T-cell–mediated immunity. We hypothesized that cotargeting of PD-1 and PD-L1 with a bispecific antibody molecule could provide an alternative therapeutic approach, with enhanced antitumor activity, compared with monospecific PD-1 and PD-L1 antibodies. Here, we describe LY3434172, a bispecific IgG1 mAb with ablated Fc immune effector function that targets both human PD-1 and PD-L1. LY3434172 fully inhibited the major inhibitory receptor–ligand interactions in the PD-1 pathway. LY3434172 enhanced functional activation of T cells in vitro compared with the parent anti–PD-1 and anti–PD-L1 antibody combination or respective monotherapies. In mouse tumor models reconstituted with human immune cells, LY3434172 therapy induced dramatic and potent antitumor activity compared with each parent antibody or their combination. Collectively, these results demonstrated the enhanced immunomodulatory (immune blockade) properties of LY3434172, which improved antitumor immune response in preclinical studies, thus supporting its evaluation as a novel bispecific cancer immunotherapy.

Published

2020

34. Accelerating the development of innovative cellular therapy products for the treatment of cancer

Author

Mark Stewart, Laura Lasiter, Timothy Moore, Ann Lee, Chris Ramsborg, Jeff Allen, Jeffrey A. Bluestone, Ellen V. Sigal, Bruce L. Levine, Ramy Ibrahim, Chin Koerner, Yuan Xu, Bruce Thompson, Michael Kalos, Lisa H. Butterfield, Anne Keane, and Ingrid Markovic

Subjects

0301 basic medicine, Parents, Cancer Research, medicine.medical_specialty, medicine.medical_treatment, Immunology, Cell- and Tissue-Based Therapy, Immunotherapy, Adoptive, Cell therapy, 03 medical and health sciences, 0302 clinical medicine, Cancer immunotherapy, Neoplasms, medicine, Immunology and Allergy, Humans, Intensive care medicine, Child, Genetics (clinical), Transplantation, business.industry, United States Food and Drug Administration, Therapies, Investigational, Cancer, Cell Biology, medicine.disease, Expert group, Combined Modality Therapy, Chimeric antigen receptor, United States, 030104 developmental biology, Clinical research, Oncology, Drug development, 030220 oncology & carcinogenesis, New product development, Patient Safety, business

Abstract

The field of cell therapy is rapidly emerging as a priority area for oncology research and drug development. Currently, two chimeric antigen receptor T-cell therapies are approved by the US Food and Drug Administration and other agencies worldwide for two types of hematologic cancers. To facilitate the development of these therapies for patients with life-threatening cancers with limited or no therapeutic options, science- and risk-based approaches will be critical to mitigating and balancing any potential risk associated with either early clinical research or more flexible manufacturing paradigms. Friends of Cancer Research and the Parker Institute for Cancer Immunotherapy convened an expert group of stakeholders to develop specific strategies and proposals for regulatory opportunities to accelerate the development of cell therapies as promising new therapeutics. This meeting took place in Washington, DC on May 17, 2019. As academia and industry expand research efforts and cellular product development pipelines, this report summarizes opportunities to accelerate entry into the clinic for exploratory studies and optimization of cell products through manufacturing improvements for these promising new therapies.

Published

2019

35. Discovery and preclinical characterization of the antagonist anti-PD-L1 monoclonal antibody LY3300054

Author

Andreas Sonyi, Michael Kalos, Anthony Pennello, Douglas Burtrum, Mary Murphy, Xinlei Chen, George Wang, David Surguladze, Ivan Inigo, Yiwei Zhang, Jaafar N. Haidar, Carmine Carpenito, Maria Malabunga, Darin Chin, Amelie Forest, Ruslan D. Novosiadly, Gerald Hall, Dale L. Ludwig, Leyi Shen, Yiwen Li, and Laurent Malherbe

Subjects

0301 basic medicine, Cancer Research, medicine.drug_class, T cell, T-Lymphocytes, Immunology, Monoclonal antibody, lcsh:RC254-282, B7-H1 Antigen, Cell Line, 03 medical and health sciences, Mice, Immune system, Cricetulus, Neoplasms, medicine, Immunology and Allergy, Animals, Humans, Receptor, Anti-PD-L1 Monoclonal Antibody LY3300054, Pharmacology, Innate immune system, biology, Chemistry, Antibodies, Monoclonal, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Macaca fascicularis, 030104 developmental biology, medicine.anatomical_structure, Oncology, Immunoglobulin G, biology.protein, Cancer research, Molecular Medicine, Female, Antibody, CD80

Abstract

Background Modulation of the PD-1/PD-L1 axis through antagonist antibodies that block either receptor or ligand has been shown to reinvigorate the function of tumor-specific T cells and unleash potent anti-tumor immunity, leading to durable objective responses in a subset of patients across multiple tumor types. Results Here we describe the discovery and preclinical characterization of LY3300054, a fully human IgG1λ monoclonal antibody that binds to human PD-L1 with high affinity and inhibits interactions of PD-L1 with its two cognate receptors PD-1 and CD80. The functional activity of LY3300054 on primary human T cells is evaluated using a series of in vitro T cell functional assays and in vivo models using human-immune reconstituted mice. LY3300054 is shown to induce primary T cell activation in vitro, increase T cell activation in combination with anti-CTLA4 antibody, and to potently enhance anti-tumor alloreactivity in several xenograft mouse tumor models with reconstituted human immune cells. High-content molecular analysis of tumor and peripheral tissues from animals treated with LY3300054 reveals distinct adaptive immune activation signatures, and also previously not described modulation of innate immune pathways. Conclusions LY3300054 is currently being evaluated in phase I clinical trials for oncology indications.

Published

2018

36. Preclinical assessment of galunisertib (LY2157299 monohydrate), a first-in-class transforming growth factor-β receptor type I inhibitor

Author

Michael Lahn, Faming Zhang, William T. McMillen, Jeremy R. Graff, Rikke B. Holmgaard, Chandrasekar V. Iyer, Jason Manro, Bryan D. Anderson, Douglas W. Beight, Maria Jose Lallena, Kyla Driscoll, Lei Yan, J. Scott Sawyer, Michael Kalos, Karen S. Britt, David K. Clawson, Philip W. Iversen, Rolf A. Brekken, Karim A. Benhadji, Xiaohong Xu, Durisala Desaiah, Jonathan Michael Yingling, and Huocong Huang

Subjects

0301 basic medicine, Chemistry, Cancer, SMAD, medicine.disease, Peripheral blood mononuclear cell, 03 medical and health sciences, 030104 developmental biology, galunisertib, Oncology, In vivo, Cancer research, medicine, Galunisertib, Phosphorylation, TGFβ receptor I, Receptor, LY2157299, Priority Research Paper, Transforming growth factor

Abstract

Transforming growth factor-β (TGFβ) is an important driver of tumor growth via intrinsic and extrinsic mechanisms, and is therefore an attractive target for developing cancer therapeutics. Using preclinical models, we characterized the anti-tumor activity of a small molecule inhibitor of TGFβ receptor I (TGFβRI), galunisertib (LY2157299 monohydrate). Galunisertib demonstrated potent and selective inhibition of TGFβRI with corresponding inhibition of downstream signaling via inhibition of SMAD phosphorylation (pSMAD). Galunisertib also inhibited TGFβ-induced pSMAD in vivo, which enabled a pharmacokinetic/pharmacodynamic profile in Calu6 and EMT6-LM2 tumors. Galunisertib demonstrated anti-tumor activity including inhibition of tumor cell migration and mesenchymal phenotype, reversal of TGFβ-mediated immune-suppression, and tumor growth delay. A concentration-effect relationship was established with a dosing schedule to achieve the optimal level of target modulation. Finally, a rat model demonstrated a correlation between galunisertib-dependent inhibition of pSMAD in tumor tissues and in PBMCs, supporting the use of PBMCs for assessing pharmacodynamic effects. Galunisertib has been tested in several clinical studies with evidence of anti-tumor activity observed in subsets of patients. Here, we demonstrate that galunisertib inhibits a number of TGFβ-dependent functions leading to anti-tumor activity. The enhanced understanding of galunisertib provides rationale for further informed clinical development of TGFβ pathway inhibitors.

Published

2017

37. The Folate Pathway Inhibitor Pemetrexed Pleiotropically Enhances Effects of Cancer Immunotherapy

Author

Yanxia Li, Frank C. Dorsey, Jason Manro, Kenneth D. Roth, Erik R. Rasmussen, Ruslan D. Novosiadly, Gerald Hall, Andrew Capen, Bonita D. Jones, Zhao Hai Lu, Bo Tan, Gregory P. Donoho, Darin Chin, Manisha Brahmachary, David Schaer, Thompson N. Doman, Sandaruwan Geeganage, Catalina Meyer, Nelusha Amaladas, Andreas Sonyi, Michael Kalos, Carmine Carpenito, Krishna Chodavarapu, Shuang Luo, Xiaodong Huang, David Surguladze, and Alexander Nikolayev

Subjects

0301 basic medicine, Cancer Research, medicine.medical_treatment, T cell, T-Lymphocytes, Apoptosis, Pembrolizumab, Antibodies, Monoclonal, Humanized, Lymphocyte Activation, B7-H1 Antigen, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, Antineoplastic Agents, Immunological, Folic Acid, Oxygen Consumption, Cancer immunotherapy, Tumor Cells, Cultured, Medicine, Animals, Humans, Cell Proliferation, Mice, Inbred BALB C, business.industry, Cell growth, Gene Expression Profiling, Immunotherapy, Xenograft Model Antitumor Assays, Mitochondria, Mice, Inbred C57BL, 030104 developmental biology, Pemetrexed, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Colonic Neoplasms, Cancer research, Immunogenic cell death, Female, business, medicine.drug

Abstract

Purpose: Combination strategies leveraging chemotherapeutic agents and immunotherapy have held the promise as a method to improve benefit for patients with cancer. However, most chemotherapies have detrimental effects on immune homeostasis and differ in their ability to induce immunogenic cell death (ICD). The approval of pemetrexed and carboplatin with anti-PD-1 (pembrolizumab) for treatment of non–small cell lung cancer represents the first approved chemotherapy and immunotherapy combination. Although the clinical data suggest a positive interaction between pemetrexed-based chemotherapy and immunotherapy, the underlying mechanism remains unknown. Experimental Design: Mouse tumor models (MC38, Colon26) and high-content biomarker studies (flow cytometry, Quantigene Plex, and nCounter gene expression analysis) were deployed to obtain insights into the mechanistic rationale behind the efficacy observed with pemetrexed/anti-PD-L1 combination. ICD in tumor cell lines was assessed by calreticulin and HMGB-1 immunoassays, and metabolic function of primary T cells was evaluated by Seahorse analysis. Results: Pemetrexed treatment alone increased T-cell activation in mouse tumors in vivo, robustly induced ICD in mouse tumor cells and exerted T-cell–intrinsic effects exemplified by augmented mitochondrial function and enhanced T-cell activation in vitro. Increased antitumor efficacy and pronounced inflamed/immune activation were observed when pemetrexed was combined with anti-PD-L1. Conclusions: Pemetrexed augments systemic intratumor immune responses through tumor intrinsic mechanisms including immunogenic cell death, T-cell–intrinsic mechanisms enhancing mitochondrial biogenesis leading to increased T-cell infiltration/activation along with modulation of innate immune pathways, which are significantly enhanced in combination with PD-1 pathway blockade. See related commentary by Buque et al., p. 6890

Published

2019

38. Dual CD19 and CD123 targeting prevents antigen-loss relapses after CD19-directed immunotherapies

Author

Vania Aikawa, Christopher A. Hunter, Miroslaw Kozlowski, Jennifer J.D. Morrissette, Michael Klichinsky, David L. Porter, Farzana Nazimuddin, David M. Barrett, John Scholler, David A. Christian, J. Joseph Melenhorst, Michael Kalos, Saar Gill, Stephan A. Grupp, Saad S. Kenderian, Carl H. June, Marco Ruella, Olga Shestova, Simon F. Lacey, Jessica Perazzelli, and Ted J. Hofmann

Subjects

0301 basic medicine, T-Lymphocytes, medicine.medical_treatment, T cell, Antigens, CD19, Interleukin-3 Receptor alpha Subunit, Receptors, Antigen, T-Cell, Antineoplastic Agents, Mice, SCID, CD19, 03 medical and health sciences, 0302 clinical medicine, Antigen, Mice, Inbred NOD, immune system diseases, Cell Line, Tumor, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma, hemic and lymphatic diseases, Animals, Humans, Medicine, biology, business.industry, General Medicine, Immunotherapy, medicine.disease, Xenograft Model Antitumor Assays, Chimeric antigen receptor, 3. Good health, Leukemia, 030104 developmental biology, medicine.anatomical_structure, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Neoplastic Stem Cells, biology.protein, Cancer research, Blinatumomab, Interleukin-3 receptor, Neoplasm Recurrence, Local, business, Research Article, medicine.drug

Abstract

Potent CD19-directed immunotherapies, such as chimeric antigen receptor T cells (CART) and blinatumomab, have drastically changed the outcome of patients with relapsed/refractory B cell acute lymphoblastic leukemia (B-ALL). However, CD19-negative relapses have emerged as a major problem that is observed in approximately 30% of treated patients. Developing approaches to preventing and treating antigen-loss escapes would therefore represent a vertical advance in the field. Here, we found that in primary patient samples, the IL-3 receptor α chain CD123 was highly expressed on leukemia-initiating cells and CD19-negative blasts in bulk B-ALL at baseline and at relapse after CART19 administration. Using intravital imaging in an antigen-loss CD19-negative relapse xenograft model, we determined that CART123, but not CART19, recognized leukemic blasts, established protracted synapses, and eradicated CD19-negative leukemia, leading to prolonged survival. Furthermore, combining CART19 and CART123 prevented antigen-loss relapses in xenograft models. Finally, we devised a dual CAR-expressing construct that combined CD19- and CD123-mediated T cell activation and demonstrated that it provides superior in vivo activity against B-ALL compared with single-expressing CART or pooled combination CART. In conclusion, these findings indicate that targeting CD19 and CD123 on leukemic blasts represents an effective strategy for treating and preventing antigen-loss relapses occurring after CD19-directed therapies.

Published

2016

39. Correction to: Discovery and preclinical characterization of the antagonist anti-PD-L1 monoclonal antibody LY3300054

Author

Douglas Burtrum, Laurent Malherbe, David Surguladze, Dale L. Ludwig, Ruslan D. Novosiadly, Anthony Pennello, George Wang, Xinlei Chen, Yiwen Li, Gerald Hall, Mary Murphy, Ivan Inigo, Maria Malabunga, Leyi Shen, Darin Chin, Carmine Carpenito, Amelie Forest, Yiwei Zhang, Andreas Sonyi, Michael Kalos, and Jaafar N. Haidar

Subjects

0301 basic medicine, Pharmacology, Cancer Research, business.industry, Immunology, Antagonist, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, lcsh:RC254-282, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Cancer research, Molecular Medicine, Immunology and Allergy, Medicine, business, Anti-PD-L1 Monoclonal Antibody LY3300054, Research Article

Abstract

Background Modulation of the PD-1/PD-L1 axis through antagonist antibodies that block either receptor or ligand has been shown to reinvigorate the function of tumor-specific T cells and unleash potent anti-tumor immunity, leading to durable objective responses in a subset of patients across multiple tumor types. Results Here we describe the discovery and preclinical characterization of LY3300054, a fully human IgG1λ monoclonal antibody that binds to human PD-L1 with high affinity and inhibits interactions of PD-L1 with its two cognate receptors PD-1 and CD80. The functional activity of LY3300054 on primary human T cells is evaluated using a series of in vitro T cell functional assays and in vivo models using human-immune reconstituted mice. LY3300054 is shown to induce primary T cell activation in vitro, increase T cell activation in combination with anti-CTLA4 antibody, and to potently enhance anti-tumor alloreactivity in several xenograft mouse tumor models with reconstituted human immune cells. High-content molecular analysis of tumor and peripheral tissues from animals treated with LY3300054 reveals distinct adaptive immune activation signatures, and also previously not described modulation of innate immune pathways. Conclusions LY3300054 is currently being evaluated in phase I clinical trials for oncology indications. Electronic supplementary material The online version of this article (10.1186/s40425-018-0329-7) contains supplementary material, which is available to authorized users.

Published

2018

40. Disruption of TET2 Promotes the Therapeutic Efficacy of CD19-targeted T-cells

Author

Simon F. Lacey, Jamie E. DeNizio, Shantan Reddy, Rahul M. Kohli, Stefan Lundh, Irina Kulikovskaya, Jennifer J.D. Morrissette, Shelley L. Berger, Joseph A. Fraietta, Morgan A. Sammons, Yangbing Zhao, Alexandria P. Cogdill, Mercy Gohil, Marvin H. Gee, David L. Porter, Yan Wang, Enrique Lin-Shiao, Christopher L. Nobles, Xiaojun Liu, J. Joseph Melenhorst, Martha S. Jordan, David E Ambrose, Bruce L. Levine, Shannon A. Carty, Michael Kalos, Regina M. Young, Katherine A. Alexander, Frederic D. Bushman, Katherine T. Marcucci, Farzana Nazimuddin, Minnal Gupta, John K. Everett, Carl H. June, Jun Xu, K. Christopher Garcia, Fang Chen, Young Hwang, and Tyler J. Reich

Subjects

Male, 0301 basic medicine, Adoptive cell transfer, Recombinant Fusion Proteins, T-Lymphocytes, T cell, Cellular differentiation, Antigens, CD19, CD19, Article, Dioxygenases, Epigenesis, Genetic, 03 medical and health sciences, 0302 clinical medicine, Antigen, medicine, Humans, Transgenes, Alleles, B cell, Aged, Clinical Trials as Topic, Multidisciplinary, biology, Cell Differentiation, Adoptive Transfer, Leukemia, Lymphocytic, Chronic, B-Cell, Clone Cells, HEK293 Cells, 030104 developmental biology, medicine.anatomical_structure, Cell killing, 030220 oncology & carcinogenesis, Mutation, 5-Methylcytosine, Cancer research, biology.protein, Immunotherapy, Clone (B-cell biology)

Abstract

Cancer immunotherapy based on genetically redirecting T cells has been used successfully to treat B cell malignancies1-3. In this strategy, the T cell genome is modified by integration of viral vectors or transposons encoding chimaeric antigen receptors (CARs) that direct tumour cell killing. However, this approach is often limited by the extent of expansion and persistence of CAR T cells4,5. Here we report mechanistic insights from studies of a patient with chronic lymphocytic leukaemia treated with CAR T cells targeting the CD19 protein. Following infusion of CAR T cells, anti-tumour activity was evident in the peripheral blood, lymph nodes and bone marrow; this activity was accompanied by complete remission. Unexpectedly, at the peak of the response, 94% of CAR T cells originated from a single clone in which lentiviral vector-mediated insertion of the CAR transgene disrupted the methylcytosine dioxygenase TET2 gene. Further analysis revealed a hypomorphic mutation in this patient's second TET2 allele. TET2-disrupted CAR T cells exhibited an epigenetic profile consistent with altered T cell differentiation and, at the peak of expansion, displayed a central memory phenotype. Experimental knockdown of TET2 recapitulated the potency-enhancing effect of TET2 dysfunction in this patient's CAR T cells. These findings suggest that the progeny of a single CAR T cell induced leukaemia remission and that TET2 modification may be useful for improving immunotherapies.

Published

2018

41. Adoptive T‐cell Therapy for Malignancy in the Setting of Hematopoietic Cell Transplantation

Author

Stephen J. Forman, Michael Kalos, and Carl H. June

Subjects

Adoptive cell transfer, Hematopoietic cell, business.industry, T cell, T-cell receptor, Malignancy, medicine.disease, Chimeric antigen receptor, Transplantation, Synthetic biology, medicine.anatomical_structure, Immunology, Cancer research, medicine, business

Published

2015

42. IgH-V(D)J NGS-MRD measurement pre- and early post-allotransplant defines very low- and very high-risk ALL patients

Author

Christopher S. Carlson, Michael Kalos, Ilan R. Kirsch, Nancy Bunin, Michael J. Borowitz, Michael A. Pulsipher, Julie M. Gastier-Foster, Cindy Desmarais, Kirk R. Schultz, Donna A. Wall, David Williamson, Bryan Langholz, and Stephan A. Grupp

Subjects

Adult, Male, Oncology, medicine.medical_specialty, Neoplasm, Residual, Multivariate analysis, Adolescent, medicine.medical_treatment, Immunology, Hematopoietic stem cell transplantation, Biochemistry, Young Adult, immune system diseases, Recurrence, Risk Factors, hemic and lymphatic diseases, Internal medicine, Humans, Transplantation, Homologous, Medicine, Young adult, Child, Transplantation, business.industry, Hazard ratio, Hematopoietic Stem Cell Transplantation, High-Throughput Nucleotide Sequencing, Infant, Cell Biology, Hematology, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Prognosis, Minimal residual disease, Surgery, body regions, Clinical trial, Child, Preschool, Cohort, Female, VDJ Exons, Immunoglobulin Heavy Chains, business

Abstract

Positive detection of minimal residual disease (MRD) by multichannel flow cytometry (MFC) prior to hematopoietic cell transplantation (HCT) of patients with acute lymphoblastic leukemia (ALL) identifies patients at high risk for relapse, but many pre-HCT MFC-MRD negative patients also relapse, and the predictive power MFC-MRD early post-HCT is poor. To test whether the increased sensitivity of next-generation sequencing (NGS)-MRD better identifies pre- and post-HCT relapse risk, we performed immunoglobulin heavy chain (IgH) variable, diversity, and joining (V[D]J) DNA sequences J NGS-MRD on 56 patients with B-cell ALL enrolled in Children's Oncology Group trial ASCT0431. NGS-MRD predicted relapse and survival more accurately than MFC-MRD (P < .0001), especially in the MRD negative cohort (relapse, 0% vs 16%; P = .02; 2-year overall survival, 96% vs 77%; P = .003). Post-HCT NGS-MRD detection was better at predicting relapse than MFC-MRD (P < .0001), especially early after HCT (day 30 MFC-MRD positive relapse rate, 35%; NGS-MRD positive relapse rate, 67%; P = .004). Any post-HCT NGS positivity resulted in an increase in relapse risk by multivariate analysis (hazard ratio, 7.7; P = .05). Absence of detectable IgH-V(D)J NGS-MRD pre-HCT defines good-risk patients potentially eligible for less intense treatment approaches. Post-HCT NGS-MRD is highly predictive of relapse and survival, suggesting a role for this technique in defining patients early who would be eligible for post-HCT interventions. The trial was registered at www.clinicaltrials.gov as #NCT00382109.

Published

2015

43. Identification of Chimeric Antigen Receptors That Mediate Constitutive or Inducible Proliferation of T Cells

Author

Carmine Carpenito, F. Brad Johnson, John Scholler, Sonny Ang, Jesse M. Platt, Carl H. June, Avery D. Posey, Shannon E. McGettigan, Shinichiro Motohashi, Sonia Guedan, Laurence J.N. Cooper, Maria C. Basil, Michael C. Milone, Chrystal M. Paulos, Matthew J. Frigault, Omkar U. Kawalekar, Jihyun Lee, Michael Kalos, and Yangbing Zhao

Subjects

Interleukin 2, Cancer Research, CD3 Complex, Recombinant Fusion Proteins, T-Lymphocytes, Genetic Vectors, Immunology, Receptors, Antigen, T-Cell, Mice, SCID, Biology, Lymphocyte Activation, Immunotherapy, Adoptive, Article, Immunophenotyping, Cytokine-Induced Killer Cells, CD28 Antigens, Antigen, Mice, Inbred NOD, medicine, Animals, Humans, Cytotoxic T cell, Cell Proliferation, Ovarian Neoplasms, Lentivirus, T-cell receptor, CD28, Xenograft Model Antitumor Assays, Chimeric antigen receptor, Cell biology, Cytokines, Interleukin-2, Female, Cytokine secretion, Chemokines, Signal transduction, human activities, Signal Transduction, medicine.drug

Abstract

This study compared second-generation chimeric antigen receptors (CAR) encoding signaling domains composed of CD28, ICOS, and 4-1BB (TNFRSF9). Here, we report that certain CARs endow T cells with the ability to undergo long-term autonomous proliferation. Transduction of primary human T cells with lentiviral vectors encoding some of the CARs resulted in sustained proliferation for up to 3 months following a single stimulation through the T-cell receptor (TCR). Sustained numeric expansion was independent of cognate antigen and did not require the addition of exogenous cytokines or feeder cells after a single stimulation of the TCR and CD28. Results from gene array and functional assays linked sustained cytokine secretion and expression of T-bet (TBX21), EOMES, and GATA-3 to the effect. Sustained expression of the endogenous IL2 locus has not been reported in primary T cells. Sustained proliferation was dependent on CAR structure and high expression, the latter of which was necessary but not sufficient. The mechanism involves constitutive signaling through NF-κB, AKT, ERK, and NFAT. The propagated CAR T cells retained a diverse TCR repertoire, and cellular transformation was not observed. The CARs with a constitutive growth phenotype displayed inferior antitumor effects and engraftment in vivo. Therefore, the design of CARs that have a nonconstitutive growth phenotype may be a strategy to improve efficacy and engraftment of CAR T cells. The identification of CARs that confer constitutive or nonconstitutive growth patterns may explain observations that CAR T cells have differential survival patterns in clinical trials. Cancer Immunol Res; 3(4); 356–67. ©2015 AACR.

Published

2015

44. The CDK4/6 Inhibitor Abemaciclib Induces a T Cell Inflamed Tumor Microenvironment and Enhances the Efficacy of PD-L1 Checkpoint Blockade

Author

Farhana F. Merzoug, Michael Kalos, Erik R. Rasmussen, Lysiane Huber, Nelusha Amaladas, Jack A. Dempsey, Linda A. Chung, Alfonso De Dios, Xueqian Gong, Richard P. Beckmann, Sean Buchanan, Carmine Carpenito, Ying Cindy Wang, David Schaer, Yanxia Li, Andrew Capen, Lacey M. Litchfield, Kirk A. Staschke, Ruslan D. Novosiadly, Darin Chin, Amelie Forest, and Philip W. Iversen

Subjects

0301 basic medicine, T cell, Antigen presentation, Programmed Cell Death 1 Receptor, Aminopyridines, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Cyclin-dependent kinase, Immunity, PD-L1, Tumor Microenvironment, Medicine, Cyclin-Dependent Kinase Inhibitor p18, Humans, lcsh:QH301-705.5, Cyclin-Dependent Kinase Inhibitor p15, Tumor microenvironment, biology, business.industry, Cancer, medicine.disease, Blockade, 030104 developmental biology, medicine.anatomical_structure, lcsh:Biology (General), 030220 oncology & carcinogenesis, Cancer research, biology.protein, Benzimidazoles, business

Abstract

Summary: Abemaciclib, an inhibitor of cyclin dependent kinases 4 and 6 (CDK4/6), has recently been approved for the treatment of hormone receptor-positive breast cancer. In this study, we use murine syngeneic tumor models and in vitro assays to investigate the impact of abemaciclib on T cells, the tumor immune microenvironment and the ability to combine with anti-PD-L1 blockade. Abemaciclib monotherapy resulted in tumor growth delay that was associated with an increased T cell inflammatory signature in tumors. Combination with anti-PD-L1 therapy led to complete tumor regressions and immunological memory, accompanied by enhanced antigen presentation, a T cell inflamed phenotype, and enhanced cell cycle control. In vitro, treatment with abemaciclib resulted in increased activation of human T cells and upregulated expression of antigen presentation genes in MCF-7 breast cancer cells. These data collectively support the clinical investigation of the combination of abemaciclib with agents such as anti-PD-L1 that modulate T cell anti-tumor immunity. : Schaer, Beckmann et al. describe unique immune-modulating properties of abemaciclib that include upregulation of antigen presentation on tumor cells and increased T cell activation. These activities synergize with anti-PD-L1 therapy to further enhance immune activation, including macrophage and DC antigen presentation, and also lead to a reciprocal increase in abemaciclib-dependent cell cycle gene regulation. Keywords: CDK4/6, abemaciclib, PD-1, PD-L1, combination immunotherapy, cancer

Published

2017

45. Chimeric Antigen Receptor T-cell Therapy to Target Hematologic Malignancies

Author

Saad S. Kenderian, Marco Ruella, Saar Gill, and Michael Kalos

Subjects

Clinical Trials as Topic, Cancer Research, Cellular immunity, medicine.drug_class, Recombinant Fusion Proteins, T-Lymphocytes, medicine.medical_treatment, Receptors, Antigen, T-Cell, Cellular Immunology, Immunotherapy, Biology, Lymphocyte Activation, Monoclonal antibody, Chimeric antigen receptor, Transplantation, Oncology, Antigen, Hematologic Neoplasms, Immunology, medicine, Humans, Chimeric Antigen Receptor T-Cell Therapy, Genetic Engineering

Abstract

Several decades of humoral immunotherapy using monoclonal antibodies and cellular immunotherapy using hematopoietic cell transplantation have recently culminated in a successful merger: the development and clinical application of genetically engineered antibody–T cell chimeras. Also known as chimeric antigen receptor T cells (CAR T cells), these entities combine the exquisite antigen specificity of antibodies with the polyfunctionality and potency of cellular immunity and are a prime example of the potential for synthetic biology to treat disease. CAR T cells overcome several of the biologic obstacles that have historically hampered immunotherapy while providing fundamental mechanistic insights into cellular immunology and revealing new challenges in genetic engineering and target selection. Results from early-phase CAR T-cell–based clinical trials demonstrate the significant potential for this approach to affect dramatic and complete clinical responses while revealing novel toxicities associated with activation of potent and specific antitumor immunity. Cancer Res; 74(22); 6383–9. ©2014 AACR.

Published

2014

46. Immune Activation and a 9-Year Ongoing Complete Remission Following CD40 Antibody Therapy and Metastasectomy in a Patient with Metastatic Melanoma

Author

Michael Kalos, Rosemarie Mick, Xiaowei Xu, Katherine L. Nathanson, David L. Bajor, Cindy Desmarais, Lynn M. Schuchter, Lee P. Richman, Robert H. Vonderheide, Drew A. Torigian, and Laura R. Garcia

Subjects

Cancer Research, Tumor microenvironment, biology, business.industry, medicine.medical_treatment, Melanoma, Immunology, Cancer, Immunotherapy, medicine.disease, Immune system, Monoclonal, medicine, Cancer research, biology.protein, Antibody, Metastasectomy, business

Abstract

Direct immune activation via agonistic mAbs is a potentially complementary approach to therapeutic blockade of inhibitory immune receptors in cancer. Here, we provide genetic analysis of the immunologic consequences associated with the use of an agonistic CD40 mAb in a patient with metastatic melanoma who responded, underwent a single metastasectomy, and then achieved a complete remission ongoing for more than 9 years after starting therapy. Tumor microenvironment after immunotherapy was associated with proinflammatory modulations and emergence of a de novo T-cell repertoire as detected by next-generation sequencing of T-cell receptors (TCR) in the tumor and blood. The de novo T-cell repertoire identified in the posttreatment metastasectomy sample was also present—and in some cases expanded—in the circulation years after completion of therapy. Comprehensive study of this “exceptional responder” highlights the emerging potential of direct immune agonists in the next wave of cancer immunotherapies and a potential role for TCR deep sequencing in cancer immune assessment. Cancer Immunol Res; 2(11); 1051–8. ©2014 AACR.

Published

2014

47. Adoptive Immunotherapy for Cancer or Viruses

Author

Yangbing Zhao, Carl H. June, Marcela V. Maus, Bruce L. Levine, Michael Kalos, and Joseph A. Fraietta

Subjects

Adoptive cell transfer, medicine.medical_treatment, T cell, Immunology, Adoptive immunotherapy, Cell- and Tissue-Based Therapy, Receptors, Antigen, T-Cell, T-Cell Antigen Receptor Specificity, Biology, Immunotherapy, Adoptive, Article, Genetic therapy, T-Lymphocyte Subsets, Transduction, Genetic, Neoplasms, medicine, Animals, Humans, Immunology and Allergy, Clinical efficacy, Antigens, Gene Transfer Techniques, Genetic Therapy, Immunotherapy, Acquired immune system, Adoptive Transfer, Chimeric antigen receptor, medicine.anatomical_structure, Virus Diseases, Biomarkers

Abstract

Adoptive immunotherapy, or the infusion of lymphocytes, is a promising approach for the treatment of cancer and certain chronic viral infections. The application of the principles of synthetic biology to enhance T cell function has resulted in substantial increases in clinical efficacy. The primary challenge to the field is to identify tumor-specific targets to avoid off-tumor, on-target toxicity. Given recent advances in efficacy in numerous pilot trials, the next steps in clinical development will require multicenter trials to establish adoptive immunotherapy as a mainstream technology.

Published

2014

48. Microsphere-Based Multiplex Analysis of DNA Methylation in Acute Myeloid Leukemia

Author

Gerald Wertheim, Catherine Smith, Maria E. Figueroa, Stephen R. Master, Martin Carroll, Michael Kalos, and Adam Bagg

Subjects

HpaII, Biology, Polymerase Chain Reaction, Sensitivity and Specificity, Pathology and Forensic Medicine, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, Multiplex polymerase chain reaction, Humans, Polymerase chain reaction, 030304 developmental biology, 0303 health sciences, DNA–DNA hybridization, Reproducibility of Results, Myeloid leukemia, Regular Article, Methylation, DNA Methylation, Prognosis, Molecular biology, Microspheres, 3. Good health, Leukemia, Myeloid, Acute, 030220 oncology & carcinogenesis, DNA methylation, Molecular Medicine, Illumina Methylation Assay, Multiplex Polymerase Chain Reaction

Abstract

Aberrant regulation of DNA methylation is characteristic of cancer cells and clearly influences phenotypes of various malignancies. Despite clear correlations between DNA methylation and patient outcome, tests that directly measure multiple-locus DNA methylation are typically expensive and technically challenging. Previous studies have demonstrated that the prognosis of patients with acute myeloid leukemia can be predicted by the DNA methylation pattern of 18 loci. We have developed a novel strategy, termed microsphere HpaII tiny fragment enrichment by ligation-mediated PCR (MELP), to simultaneously analyze the DNA methylation pattern at these loci using methylation-specific DNA digestion, fluorescently labeled microspheres, and branched DNA hybridization. The method uses techniques that are inexpensive and easily performed in a molecular laboratory. MELP accurately reflects the methylation levels at each locus analyzed and segregates patients with acute myeloid leukemia into prognostic subgroups. Our results demonstrate the usefulness of MELP as a platform for simultaneous evaluation of DNA methylation of multiple loci.

Published

2014

49. Mesothelin-Specific Chimeric Antigen Receptor mRNA-Engineered T Cells Induce Antitumor Activity in Solid Malignancies

Author

Michael Kalos, Andrew R. Haas, Gabriela Plesa, Yangbing Zhao, Gregory L. Beatty, Michael C. Soulen, Anne Chew, Bruce L. Levine, Steven M. Albelda, Marcela V. Maus, Carl H. June, and Drew A. Torigian

Subjects

Male, Mesothelioma, Cancer Research, Adoptive cell transfer, Lung Neoplasms, Pleural Neoplasms, medicine.medical_treatment, Immunology, Receptors, Antigen, T-Cell, GPI-Linked Proteins, Chimerism, Immunotherapy, Adoptive, Article, Immune system, Antigen, T-Lymphocyte Subsets, medicine, Humans, Cytotoxic T cell, Mesothelin, RNA, Messenger, Aged, Aged, 80 and over, biology, Mesothelioma, Malignant, Immunotherapy, Chimeric antigen receptor, Pancreatic Neoplasms, Electroporation, Cancer research, biology.protein, Feasibility Studies, Antibody, Genetic Engineering

Abstract

Off-target toxicity due to the expression of target antigens in normal tissue represents a major obstacle to the use of chimeric antigen receptor (CAR)-engineered T cells for treatment of solid malignancies. To circumvent this issue, we established a clinical platform for engineering T cells with transient CAR expression by using in vitro transcribed mRNA encoding a CAR that includes both the CD3-ζ and 4-1BB costimulatory domains. We present two case reports from ongoing trials indicating that adoptive transfer of mRNA CAR T cells that target mesothelin (CARTmeso cells) is feasible and safe without overt evidence of off-tumor on-target toxicity against normal tissues. CARTmeso cells persisted transiently within the peripheral blood after intravenous administration and migrated to primary and metastatic tumor sites. Clinical and laboratory evidence of antitumor activity was shown in both patients, and the CARTmeso cells elicited an antitumor immune response revealed by the development of novel antiself antibodies. These data show the potential of using mRNA-engineered T cells to evaluate, in a controlled manner, potential off-tumor on-target toxicities and show that short-lived CAR T cells can induce epitope spreading and mediate antitumor activity in patients with advanced cancer. Thus, these findings support the development of mRNA CAR-based strategies for carcinoma and other solid tumors. Cancer Immunol Res; 2(2); 112–20. ©2013 AACR.

Published

2014

50. CART Targeting of Solid Tumors: More Pieces to the Puzzle

Author

Michael Kalos

Subjects

0301 basic medicine, Cart, Cancer Research, Receptors, Chimeric Antigen, business.industry, T-Lymphocytes, medicine.medical_treatment, Receptors, Antigen, T-Cell, Immunotherapy, Immunotherapy, Adoptive, Xenograft Model Antitumor Assays, ErbB Receptors, 03 medical and health sciences, Biliary Tract Neoplasms, 030104 developmental biology, Oncology, Stroma, Cancer research, Humans, Medicine, business

Abstract

Chimeric antigen receptor–modified T (CART)-cell–based targeting of solid tumors remains a considerable and worthwhile challenge in the field of immunotherapy. The role of chemotherapy to target stroma and enhance chimeric antigen receptor (CAR) cell antitumor function, expansion, and persistence is still unresolved. Clin Cancer Res; 24(6); 1246–7. ©2018 AACR. See related article by Guo et al., p. 1277

Published

2018