Your search keyword '"Renee Kirk"' showing total 20 results

1. Supplementary Methods and Figure Legends from Antibody Blockade of Semaphorin 4D Promotes Immune Infiltration into Tumor and Enhances Response to Other Immunomodulatory Therapies

Author

Maurice Zauderer, Ernest S. Smith, Mark Paris, William J. Bowers, Terrence L. Fisher, Katya Klimatcheva, Maria Scrivens, Susan Giralico, Alan Howell, Renee Kirk, Crystal Mallow, Laurie A. Winter, Jennifer Seils, Michael A. Doherty, Christine Reilly, Janaki Veeraraghavan, Sebold Torno, Holm Bussler, Alan S. Jonason, and Elizabeth E. Evans

Abstract

Analysis and statistics for tumor growth, survival and CR: Immunohistochemistry methods.

Published

2023

2. Supplementary Figures 1-8 from Antibody Blockade of Semaphorin 4D Promotes Immune Infiltration into Tumor and Enhances Response to Other Immunomodulatory Therapies

Author

Maurice Zauderer, Ernest S. Smith, Mark Paris, William J. Bowers, Terrence L. Fisher, Katya Klimatcheva, Maria Scrivens, Susan Giralico, Alan Howell, Renee Kirk, Crystal Mallow, Laurie A. Winter, Jennifer Seils, Michael A. Doherty, Christine Reilly, Janaki Veeraraghavan, Sebold Torno, Holm Bussler, Alan S. Jonason, and Elizabeth E. Evans

Abstract

Supplementary Figure S1: SEMA4D and PLXNB1 are highly expressed in human cancer. Supplementary Figure S2: SEMA4D gradient at tumor leading edge. Supplementary Figure S3: Tumor volumes of mice selected for immune cell characterization and functional assays. Supplementary Figure S4: CD8+ T cells are required for anti-SEMA4D induced specific immune memory response to Colon26. Supplementary Figure S5: Anti-SEMA4D treatment increases the Teff:Treg ratio. Supplementary Figure S6: Minimal effective dose of MAb67 is ~ 3 mg/kg corresponds with cSEMA4D T cell saturation as a PD marker Supplementary Figure S7: Single agent anti-SEMA4D is highly effective, while immune checkpoint inhibitor antibodies are ineffective in mammary carcinoma model. Supplementary Figure S8: Proposed mechanisms of action for SEMA4D blockade.

Published

2023

3. Data from Antibody Blockade of Semaphorin 4D Promotes Immune Infiltration into Tumor and Enhances Response to Other Immunomodulatory Therapies

Author

Maurice Zauderer, Ernest S. Smith, Mark Paris, William J. Bowers, Terrence L. Fisher, Katya Klimatcheva, Maria Scrivens, Susan Giralico, Alan Howell, Renee Kirk, Crystal Mallow, Laurie A. Winter, Jennifer Seils, Michael A. Doherty, Christine Reilly, Janaki Veeraraghavan, Sebold Torno, Holm Bussler, Alan S. Jonason, and Elizabeth E. Evans

Abstract

Semaphorin 4D (SEMA4D, CD100) and its receptor plexin-B1 (PLXNB1) are broadly expressed in murine and human tumors, and their expression has been shown to correlate with invasive disease in several human tumors. SEMA4D normally functions to regulate the motility and differentiation of multiple cell types, including those of the immune, vascular, and nervous systems. In the setting of cancer, SEMA4D–PLXNB1 interactions have been reported to affect vascular stabilization and transactivation of ERBB2, but effects on immune-cell trafficking in the tumor microenvironment (TME) have not been investigated. We describe a novel immunomodulatory function of SEMA4D, whereby strong expression of SEMA4D at the invasive margins of actively growing tumors influences the infiltration and distribution of leukocytes in the TME. Antibody neutralization of SEMA4D disrupts this gradient of expression, enhances recruitment of activated monocytes and lymphocytes into the tumor, and shifts the balance of cells and cytokines toward a proinflammatory and antitumor milieu within the TME. This orchestrated change in the tumor architecture was associated with durable tumor rejection in murine Colon26 and ERBB2+ mammary carcinoma models. The immunomodulatory activity of anti-SEMA4D antibody can be enhanced by combination with other immunotherapies, including immune checkpoint inhibition and chemotherapy. Strikingly, the combination of anti-SEMA4D antibody with antibody to CTLA-4 acts synergistically to promote complete tumor rejection and survival. Inhibition of SEMA4D represents a novel mechanism and therapeutic strategy to promote functional immune infiltration into the TME and inhibit tumor progression. Cancer Immunol Res; 3(6); 689–701. ©2015 AACR.

Published

2023

4. The 300 'correlators' suggests 4D, N $$ \mathcal{N} $$ = 1 SUSY is a solution to a set of Sudoku puzzles

Author

S. James Gates, Aleksander J. Cianciara, Yangrui Hu, and Renee Kirk

Subjects

Physics, High Energy Physics - Theory, Global Symmetries, Nuclear and High Energy Physics, Conjecture, 010308 nuclear & particles physics, Coxeter group, FOS: Physical sciences, Four color theorem, Supersymmetry, QC770-798, Permutation group, 01 natural sciences, Combinatorics, Set (abstract data type), Auxiliary field, Truncated octahedron, High Energy Physics - Theory (hep-th), Nuclear and particle physics. Atomic energy. Radioactivity, 0103 physical sciences, Supersymmetric Effective Theories, Supersymmetry and Duality, 010306 general physics

Abstract

A conjecture is made that the weight space for 4D, $\cal N$-extended supersymmetrical representations is embedded within the permutahedra associated with permutation groups ${\mathbb{S}}{}_{d}$. Adinkras and Coxeter Groups associated with minimal representations of 4D, $\cal N$ = 1 supersymmetry provide evidence supporting this conjecture. It is shown the appearance of the mathematics of 4D, $\cal N$ = 1 minimal off-shell supersymmetry representations is equivalent to solving a four color problem on the truncated octahedron. This observation suggest an entirely new way to approach the off-shell SUSY auxiliary field problem based on IT algorithms probing the properties of ${\mathbb{S}}{}_{d}$., LaTeX twice, 39 pages, 14 figures, 28 tables (v2 added one table and associated content, v3 note added in proof comment)

Published

2021

5. Generation and preclinical characterization of an antibody specific for SEMA4D

Author

Mark Paris, Alan S. Jonason, Alan Howell, Ekaterina Klimatcheva, He Huang, Maria Scrivens, Laurie A. Winter, Christine Reilly, Renee Kirk, Ernest S. Smith, Jennifer Seils, Sebold Torno, Loretta Mueller, Holm Bussler, Maurice Zauderer, John E. Leonard, Terrence L. Fisher, Tracy Pandina, Leslie Balch, and Elizabeth E. Evans

Subjects

0301 basic medicine, medicine.drug_class, Immunology, SEMA4D, Arthritis, Semaphorins, Monoclonal antibody, Antibodies, Monoclonal, Murine-Derived, Mice, 03 medical and health sciences, Immune system, Semaphorin, Antibody Specificity, Antigens, CD, In vivo, Report, medicine, Animals, Humans, Immunology and Allergy, Mab 67-2, Mice, Knockout, biology, medicine.disease, Antibodies, Neutralizing, VX15/2503, 030104 developmental biology, Epitope mapping, arthritis, humanized monoclonal antibody, biology.protein, CD100, Antibody

Abstract

Semaphorin 4D (SEMA4D or CD100) is a member of the semaphorin family of proteins and an important mediator of the movement and differentiation of multiple cell types, including those of the immune, vascular, and nervous systems. Blocking the binding of SEMA4D to its receptors can result in physiologic changes that may have implications in cancer, autoimmune, and neurological disease. To study the effects of blocking SEMA4D, we generated, in SEMA4D-deficient mice, a panel of SEMA4D-specific hybridomas that react with murine, primate, and human SEMA4D. Utilizing the complementarity-determining regions from one of these hybridomas (mAb 67-2), we generated VX15/2503, a humanized IgG4 monoclonal antibody that is currently in clinical development for the potential treatment of various malignancies and neurodegenerative disorders, including multiple sclerosis and Huntington's disease. This work describes the generation and characterization of VX15/2503, including in vitro functional testing, epitope mapping, and an in vivo demonstration of efficacy in an animal model of rheumatoid arthritis.

Published

2015

6. Antibody Blockade of Semaphorin 4D Promotes Immune Infiltration into Tumor and Enhances Response to Other Immunomodulatory Therapies

Author

Mark Paris, Alan S. Jonason, Jennifer Seils, Holm Bussler, Maria Scrivens, Christine Reilly, Susan Giralico, Elizabeth E. Evans, Laurie A. Winter, Renee Kirk, Michael A. Doherty, Sebold Torno, Katya Klimatcheva, Ernest S. Smith, Maurice Zauderer, Terrence L. Fisher, Crystal Mallow, William J. Bowers, Alan Howell, and Janaki Veeraraghavan

Subjects

Cancer Research, Receptor, ErbB-2, medicine.medical_treatment, Immunology, Programmed Cell Death 1 Receptor, SEMA4D, Antigen-Presenting Cells, Antineoplastic Agents, Breast Neoplasms, Semaphorins, Biology, Proinflammatory cytokine, Immunomodulation, Mice, Immune system, Lymphocytes, Tumor-Infiltrating, Antigen, Antigens, CD, Cell Line, Tumor, Neoplasms, medicine, Tumor Microenvironment, Animals, Humans, CTLA-4 Antigen, Antibodies, Blocking, Cyclophosphamide, Tumor microenvironment, Antibodies, Monoclonal, Drug Synergism, Immunotherapy, Xenograft Model Antitumor Assays, Immune checkpoint, Lymphocyte Subsets, Tumor Burden, Disease Models, Animal, Tumor progression, Cancer research, Cytokines, Female, Immunologic Memory

Abstract

Semaphorin 4D (SEMA4D, CD100) and its receptor plexin-B1 (PLXNB1) are broadly expressed in murine and human tumors, and their expression has been shown to correlate with invasive disease in several human tumors. SEMA4D normally functions to regulate the motility and differentiation of multiple cell types, including those of the immune, vascular, and nervous systems. In the setting of cancer, SEMA4D–PLXNB1 interactions have been reported to affect vascular stabilization and transactivation of ERBB2, but effects on immune-cell trafficking in the tumor microenvironment (TME) have not been investigated. We describe a novel immunomodulatory function of SEMA4D, whereby strong expression of SEMA4D at the invasive margins of actively growing tumors influences the infiltration and distribution of leukocytes in the TME. Antibody neutralization of SEMA4D disrupts this gradient of expression, enhances recruitment of activated monocytes and lymphocytes into the tumor, and shifts the balance of cells and cytokines toward a proinflammatory and antitumor milieu within the TME. This orchestrated change in the tumor architecture was associated with durable tumor rejection in murine Colon26 and ERBB2+ mammary carcinoma models. The immunomodulatory activity of anti-SEMA4D antibody can be enhanced by combination with other immunotherapies, including immune checkpoint inhibition and chemotherapy. Strikingly, the combination of anti-SEMA4D antibody with antibody to CTLA-4 acts synergistically to promote complete tumor rejection and survival. Inhibition of SEMA4D represents a novel mechanism and therapeutic strategy to promote functional immune infiltration into the TME and inhibit tumor progression. Cancer Immunol Res; 3(6); 689–701. ©2015 AACR.

Published

2014

7. Abstract 4888: Antibody blockade of semaphorin 4D breaks down stromal barriers to enhance tumoricidal immune infiltration, supporting rational immunotherapy combinations

Author

Mark Paris, Maria Scrivens, Maurice Zauderer, Renee Kirk, Alan Howell, Terrence L. Fisher, Siwen Hu-Lieskovan, Ekaterina Klimatcheva, Leslie Balch, Antoni Ribas, Ernest S. Smith, Sebold Torno, John E. Leonard, Holm Bussler, Crystal Mallow, Elizabeth E. Evans, Laurie A. Winter, and Christine Reilly

Subjects

Cancer Research, Chemokine, Tumor microenvironment, medicine.medical_treatment, Immunotherapy, Biology, Immune checkpoint, Immune system, Oncology, Tumor progression, Immunology, biology.protein, medicine, Tumor necrosis factor alpha, Antibody

Abstract

Semaphorin 4D (SEMA4D, CD100) and its receptor plexin-B1 are broadly expressed in cancer; increased expression correlates with poor prognosis. SEMA4D normally functions to regulate the motility and differentiation of multiple cell types, including those of the immune, vascular, and nervous systems. In the tumor microenvironment (TME), SEMA4D is expressed strongly at the invasive margin and modulates the infiltration and spatial distribution of leukocytes, suppressing anti-tumor activity. Neutralization of SEMA4D was evaluated for effects on immune activity and tumor growth in preclinical models, incorporating single agent and combination treatments with other immunotherapies, including immune checkpoint blockade inhibitors. The safety and tolerability of humanized anti-SEMA4D antibody VX15/2503 was assessed in a Phase I clinical trial. RESULTS: SEMA4D restricts migration of myeloid cells expressing cognate PLXNB1/2 receptors, determined using trans-well migration assays and IHC of in vivo tumors. Antibody neutralization disrupted the SEMA4D gradient at the invasive margin, which correlated with recruitment of activated APCs and T lymphocytes into the TME, and significant shift toward increased Th1 cytokines (IFNg, TNFa) and CTL-recruiting CXCL9 chemokine, with concurrent reduction in Treg- and M2-macrophage promoting chemokines (CCL2, CXCL1, CCL17). Accordingly, an increase in Teff:Treg ratio (3x, p SEMA4D antibody treatment was well tolerated in nonclinical and clinical studies; including a Phase I multiple ascending dose trial in patients with advanced refractory solid tumors. Patients with the longest duration of treatment, 48-55 weeks, included colorectal, breast, and a papillary thyroid patient, who had a partial response by RECIST. Progression free survival strongly correlated with elevated baseline lymphocyte counts (r = 0.6133), supporting an immune mediated mechanism of action for VX15/2503. CONCLUSION: Inhibition of SEMA4D represents a novel mechanism and therapeutic strategy to promote functional immune infiltration into the tumor and inhibit tumor progression. A phase 1b/2 trial of combination therapy with an immune checkpoint inhibitor is planned. Citation Format: Elizabeth E. Evans, Holm Bussler, Sebold Torno, Crystal Mallow, Christine Reilly, Maria Scrivens, Ekaterina Klimatcheva, Laurie A. Winter, Renee Kirk, Alan Howell, Leslie Balch, John E. Leonard, Mark Paris, Terrence L. Fisher, Siwen Hu-Lieskovan, Antoni Ribas, Ernest S. Smith, Maurice Zauderer. Antibody blockade of semaphorin 4D breaks down stromal barriers to enhance tumoricidal immune infiltration, supporting rational immunotherapy combinations. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4888.

Published

2016

8. Abstract A119: Antibody blockade of Semaphorin 4D neutralizes barrier to immune infiltration and facilitates immune-mediated tumor rejection

Author

Maria Scrivens, Holm Bussler, Mark Paris, Alan S. Jonason, Alan Howell, Crystal Mallow, Renee Kirk, Christine Reilly, Ekaterina Klimatcheva, John E. Leonard, Laurie A. Winters, Terrence L. Fisher, Elizabeth E. Evans, Sebold Torno, Ernest S. Smith, Maurice Zauderer, Leslie Balch, and Janaki Veeraraghavan

Subjects

Cancer Research, Tumor microenvironment, biology, business.industry, Lymphocyte, medicine.medical_treatment, Immunology, Immune checkpoint, medicine.anatomical_structure, Immune system, Cancer immunotherapy, Tumor progression, medicine, biology.protein, Antibody, Antigen-presenting cell, business

Abstract

Semaphorin 4D (SEMA4D, CD100) and its receptor plexin-B1 are broadly expressed in cancer and expression correlates with invasive disease in several human tumors. SEMA4D normally functions to regulate the motility and differentiation of multiple cell types, including those of the immune, vascular, and nervous systems. In the setting of cancer, we describe a novel immunomodulatory function of SEMA4D in regulation of immune cell infiltration and activity in the tumor microenvironment (TME). Purpose: Characterize immune-related and anti-tumor activity mediated by antibody neutralization of SEMA4D, as a single agent and in combination with other immunomodulatory therapies. Methods: Blockade of SEMA4D with monoclonal murine antibody was evaluated in subcutaneous models, as well as an orthotopic ERBB2+ breast carcinoma syngeneic model. Anti-tumor immune response in pre-clinical models was characterized by selective in vivo immune cell depletions, as well as immunohistochemistry, flow cytometry, and functional assays. The safety and tolerability of a humanized anti-SEMA4D antibody VX15/2503 was assessed in Phase I clinical trials in oncology. Results: SEMA4D restricts migration of macrophage cell lines in vitro. Strong expression of SEMA4D at the invasive margins of actively growing in vivo tumors modulates the infiltration and spatial distribution of leukocytes in the TME. Antibody neutralization of SEMA4D disrupts this gradient and facilitates recruitment of potent antigen presenting cells and T lymphocytes into the TME, shifting the balance of cytokines toward increased Th1 and reduced immunosuppressive cytokines. This orchestrated change in the tumor architecture was associated with durable tumor rejection and immunologic memory in preclinical models. Immune-mediated tumor rejection may enhance the disruption of ERBB2 transactivation with SEMA4D receptors, which has been reported for ERBB2 and Met oncogenes. Importantly, the immunomodulatory activity of anti-SEMA4D antibody can also be further enhanced by combination with other immunotherapies, including immune checkpoint inhibition and chemotherapy. Strikingly, the combination of anti-SEMA4D antibody with antibody to CTLA-4 acts synergistically to promote complete tumor rejection and survival, with significant 58% increase in tumor regression and maximal increase in survival, as compared to monotherapy. Treatment with anti-SEMA4D antibodies was well tolerated in nonclinical and clinical studies, including completion of a Phase I prospective multiple ascending dose trial in patients with advanced refractory solid tumors. Weekly doses of between 0.3 and 20 mg/kg were administered; no MTD was determined. Patients with the longest duration of treatment, 48-55 weeks, included colorectal, breast, and a papillary thyroid patient, who had a partial response by RECIST. Progression free survival correlated with elevated baseline lymphocyte counts, supporting an immune mediated mechanism of action for VX15/2503. Conclusion: Inhibition of SEMA4D represents a novel mechanism and therapeutic strategy to promote functional immune infiltration into the tumor and inhibit tumor progression. A phase 1b/2a trial of combination therapy with immune checkpoint inhibition is planned. Citation Format: Elizabeth E. Evans, Holm Bussler, Sebold Torno, Crystal Mallow, Laurie A. Winters, Christine Reilly, Ekaterina Klimatcheva, Janaki Veeraraghavan, Alan S. Jonason, Maria Scrivens, Renee Kirk, Alan Howell, Leslie Balch, John E. Leonard, Mark Paris, Terrence L. Fisher, Ernest S. Smith, Maurice Zauderer. Antibody blockade of Semaphorin 4D neutralizes barrier to immune infiltration and facilitates immune-mediated tumor rejection. [abstract]. In: Proceedings of the CRI-CIMT-EATI-AACR Inaugural International Cancer Immunotherapy Conference: Translating Science into Survival; September 16-19, 2015; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2016;4(1 Suppl):Abstract nr A119.

Published

2016

9. Aspiration of an Oral Temperature Probe Cover Causing Respiratory Distress

Author

A. Stacey Headley and Renee Kirk

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Respiratory distress, business.industry, Oral temperature, Medicine, Cover (algebra), business, Intensive care medicine, Flexible bronchoscopy

Published

2003

10. Abstract A67: Phase 1 study of VX15/2503, an immunomodulatory antibody to Semaphorin 4D that reverses tumor growth in preclinical studies

Author

Ernest S. Smith, Anthony W. Tolcher, Maria Scrivens, Ramesh K. Ramanathan, Janaki Veeraraghavan, John E. Leonard, Michael A. Doherty, Jennifer Seils, Terrence L. Fisher, Glen J. Weiss, Valerie Iddison, Amita Patnaik, Drew W. Rasco, Sue Giralico, Crystal Mallow, Katya Klimatcheva, Maurice Zauderer, William J. Bowers, Sebold Torno, Elizabeth E. Evans, Danielle Mutz, Lisa Blaydorn, Laurie A. Winter, Tracy Pandina, Alan Howell, Cynthia Edington, Renee Kirk, Mark Paris, Alan S. Jonason, Christine Reilly, and Holm Bussler

Subjects

Cancer Research, Tumor microenvironment, Cyclophosphamide, business.industry, medicine.medical_treatment, Immunology, Cancer, Immunotherapy, medicine.disease, Metastasis, Immune system, Tumor progression, Pancreatic cancer, medicine, Cancer research, business, medicine.drug

Abstract

Semaphorin 4D (SEMA4D, CD100) normally functions to regulate the motility and differentiation of multiple cell types, including those of the immune, vascular, and nervous systems. In the setting of cancer, SEMA4D promotes tumor progression and metastasis. SEMA4D and its receptor plexin B1 are broadly expressed in murine and human tumors; expression correlates with invasive disease in several human tumors. SEMA4D is highly expressed on T cells and is also released as a biologically active soluble molecule by activated inflammatory cells. Preclinical studies demonstrate a novel immunomodulatory function of SEMA4D, whereby SEMA4D influences the recruitment and distribution of leukocytes in the tumor microenvironment. Antibody blockade of SEMA4D with the murine progenitor of VX15/2503 regulates the balance and activity of inflammatory and tolerance-inducing cells and cytokines to effectively delay tumor growth and promote durable tumor rejection in syngeneic colon and breast cancer models. Combination of anti-SEMA4D antibody with immune checkpoint inhibitor anti-CTLA-4 enhances anti-tumor immune activity and synergistically increases tumor rejection. Combinations with anti-PD-1 or cyclophosphamide, an immunomodulatory chemotherapy reported to differentially affect regulatory T cells, also increases efficacy and frequency of tumor rejection. Inhibition of SEMA4D represents a novel mechanism and therapeutic strategy to promote immune infiltration and distribution in the tumor microenvironment and inhibit tumor progression. The humanized anti-SEMA4D antibody, VX15/2503, has successfully completed a Phase I multiple ascending dose trial in adult patients with advanced refractory solid tumors. Patients were administered weekly IV doses of VX15/2503 until progression. Dose levels were 0.3 to 20 mg/kg. Tumors were assessed by RECIST 1.1 after each 8 dose cycle. The study has concluded (n=42 Pts); sex 40%M/60%F. Mean age (yrs) 64.8; ECOG 0/1/2 are 28.6%/69%/2.4%. No MTD was found. One DLT (grade 3 GGT elevation; 15 mg/kg) was reported in a pancreatic cancer patient with disease progression. The most frequent treatment-related AE's (n=42 pts) included grade 1/2 nausea (14.3%) and fatigue (11.9%) and 15 unrelated SAE's were reported in 12 patients. Thirteen of 42 pts at all dose levels exhibited stable disease for at least 8 weeks. Patients with the longest duration of treatment, 48-55 weeks, included colorectal (9 mg/kg); breast (15 mg/kg); and papillary thyroid (20 mg/kg)—this patient had a partial response by RECIST and stable disease for at least 6 months following cessation of treatment at 48 weeks. VX15/2503 serum concentrations of ≥ 0.3 µg/mL produced complete saturation of membrane SEMA4D on circulating T cells. HAHA responses (titer > 100) with possible effects on PK were observed in 4 of 41 patients (10%); in only 1 patient (2%) was an effect of HAHA on PD observed. VX15/2503 was well tolerated at dose levels up to 20 mg/kg, with 459 doses administered to 42 patients. A phase 1b/2a trial of combination therapy with anti-CTLA-4 is planned. Citation Format: Elizabeth E. Evans, Terrence L. Fisher, Cynthia Edington, Holm Bussler, Sebold Torno, Alan S. Jonason, Jr., Janaki Veeraraghavan, Christine Reilly, Michael A. Doherty, Jennifer Seils, Laurie A. Winter, Tracy Pandina, Crystal Mallow, Renee Kirk, Alan Howell, Sue Giralico, Maria Scrivens, Katya Klimatcheva, William J. Bowers, Mark Paris, Drew Warren Rasco, Ramesh K. Ramanathan, Amita Patnaik, Glen J. Weiss, Danielle Mutz, Lisa Blaydorn, Anthony W. Tolcher, Valerie Iddison, Ernest S. Smith, John E. Leonard, Maurice Zauderer. Phase 1 study of VX15/2503, an immunomodulatory antibody to Semaphorin 4D that reverses tumor growth in preclinical studies. [abstract]. In: Proceedings of the AACR Special Conference: Tumor Immunology and Immunotherapy: A New Chapter; December 1-4, 2014; Orlando, FL. Philadelphia (PA): AACR; Cancer Immunol Res 2015;3(10 Suppl):Abstract nr A67.

Published

2015

11. Abstract 278: Antibody blockade of semaphorin 4D promotes infiltration of activated tumor infiltrating leukocytes and reverses tumor growth

Author

Alan Howell, Katya Klimatcheva, John E. Leonard, Maurice Zauderer, Sue Giralico, Mark Paris, Ernest S. Smith, Janaki Veeraraghavan, Alan S. Jonason, Terrence L. Fisher, Sebold Torno, Renee Kirk, Laurie A. Winters, Holm Bussler, Maria Scrivens, Crystal Mallow, Elizabeth E. Evans, and Christine Reilly

Subjects

Cancer Research, biology, Chemistry, Semaphorin 4d, medicine.disease, Blockade, Oncology, Immunology, biology.protein, medicine, Cancer research, Tumor growth, Antibody, Infiltration (medical)

Abstract

Semaphorin 4D (SEMA4D, CD100) and its receptor plexin-B1 are broadly expressed in cancer and expression correlates with invasive disease in several human tumors. SEMA4D normally functions to regulate the motility and differentiation of multiple cell types, including those of the immune, vascular, and nervous systems. In the setting of cancer, effects on cellular movement mediated by SEMA4D/PLXNB1 interactions have been described in relation to vascular stabilization and transactivation of ERBB2. Herein, we describe a novel function of SEMA4D in regulation of immune cell infiltration and activity in the tumor microenvironment (TME). PURPOSE: Characterize immune-related and anti-tumor activity mediated by antibody neutralization of SEMA4D, as a single agent or in combination with other immunomodulatory therapies. METHODS: Blockade of SEMA4D with monoclonal murine antibody was evaluated in subcutaneous Colon26 and orthotopic ERBB2+ breast carcinoma syngeneic models. Growth kinetics were assessed following selective in vivo immune cell depletions. Anti-tumor immune response was characterized by immunohistochemistry, FACS, and functional assays. RESULTS: Strong expression of SEMA4D at the invasive margins of actively growing tumors modulates the infiltration and spatial distribution of leukocytes in the TME. Antibody neutralization of SEMA4D disrupts this gradient and enhances recruitment of activated antigen presenting cells and lymphocytes into the TME, shifting the balance of cytokines toward increased Th1 and reduced immunosuppressive cytokines. This orchestrated change in the tumor architecture was associated with durable tumor rejection and immunologic memory in Colon26 and ERBB2+ mammary carcinoma models. Efficacy was dependent on both active adaptive and innate immune cell responses. The immunomodulatory activity of anti-SEMA4D antibody can be enhanced by combination with other immunotherapies, including immune checkpoint inhibition and chemotherapy. Strikingly, the combination of anti-SEMA4D antibody with antibody to CTLA-4 acts synergistically to promote complete tumor rejection and survival, with significant 58% increase in tumor regression and >295% increase in survival, as compared to monotherapy. CONCLUSION: Inhibition of SEMA4D represents a novel mechanism and therapeutic strategy to promote functional immune infiltration into the tumor and inhibit tumor progression. Humanized anti-SEMA4D therapeutic antibody, VX15/2503, has completed a Phase I prospective multiple ascending dose trial in 42 adult patients with advanced refractory solid tumors, in which the highest doses were well tolerated. Patients with the longest duration of treatment, 48-55 weeks, included colorectal, breast, and a papillary thyroid patient, who had a partial response by RECIST. A phase 1b/2a trial of combination therapy is planned. Citation Format: Elizabeth E. Evans, Holm Bussler, Sebold Torno, Crystal Mallow, Laurie A, Winters, Christine Reilly, Katya Klimatcheva, Janaki Veeraraghavan, Alan S. Jonason, Maria Scrivens, Renee Kirk, Sue Giralico, Alan Howell, John E. Leonard, Mark Paris, Terrence L. Fisher, Ernest S. Smith, Maurice Zauderer. Antibody blockade of semaphorin 4D promotes infiltration of activated tumor infiltrating leukocytes and reverses tumor growth. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 278. doi:10.1158/1538-7445.AM2015-278

Published

2015

12. Development of anti-CXCL13 monoclonal antibody for the treatment of autoimmune and immuno-oncological disorders (THER2P.950)

Author

Ekaterina Klimatcheva, Crystal Mallow, Christine Reilly, Sebold Torno, Holm Bussler, Alan Howell, Maria Scrivens, Wei Wang, Leslie Balch, Frank Murante, Cathrine Foster, Renee Kirk, Susan Giralico, John Leonard, Mark Paris, Terrence Fisher, Elizabeth Evans, Ernest Smith, and Maurice Zauderer

Subjects

Immunology, Immunology and Allergy

Abstract

The chemokine CXCL13 is expressed in secondary lymphoid organs by follicular dendritic cells and macrophages and is also expressed by TH17 cells. It is the only known ligand for the CXCR5 receptor expressed on mature B cells, multiple subsets of T cells, macrophages and endothelial cells. Aberrant expression of CXCL13 within ectopic germinal centers has been linked to the development of autoimmune and cancer-promoting inflammatory disorders. Over-expression of CXCR5 receptor in certain cancers has been reported to induce CXCL13-dependent cell proliferation and metastasis. We developed a human IgG1 monoclonal antibody that specifically binds to human, rodent and primate CXCL13 and is capable of neutralizing CXCL13 function of these various species in in vitro functional assays. For preclinical in vivo studies we have engineered a chimeric antibody that contains the same human heavy and light chain variable genes as the human antibody along with mouse constant regions. This antibody has demonstrated efficacy in murine models of autoimmunity (Experimental Autoimmune Encephalomyelitis, Collagen-Induced Arthritis) and immuno-oncology (MALT lymphoma). In adoptive transfer and immunization studies, treatment with this antibody reduced B cell trafficking to the spleen and lymph nodes and interfered with the formation and expansion of germinal centers. The human antibody is currently undergoing pre-clinical development to support a future FDA Investigational New Drug application.

Published

2015

13. Antibody blockade of semaphorin 4D promotes infiltration of activated tumor infiltrating leukocytes and inhibits tumor growth. (TUM7P.1030)

Author

Ekaterina Klimatcheva, Elizabeth Evans, Holm Bussler, Sebold Torno, Crystal Mallow, Laurie Winter, Christine Reilly, Janaki Veeraraghavan, Alan S. Jonason, Maria Scrivens, Renee Kirk, Susan Giralico, Alan Howell, John Leonard, Mark Paris, Terrence Fisher, Ernest Smith, and Maurice Zauderer

Subjects

Immunology, Immunology and Allergy

Abstract

Semaphorin 4D (SEMA4D, CD100) and its receptor plexin-B1 are broadly expressed in cancer and expression correlates with invasive disease. A novel function of SEMA4D, regulating immune cell infiltration and activity in the tumor microenvironment (TME), is described. Antibody neutralization of SEMA4D enhances recruitment of activated antigen presenting cells and lymphocytes into the TME, shifting the balance of cells and cytokines toward increased Th1 and reduced immunosuppression. This orchestrated change in the tumor architecture was associated with durable tumor rejection and immunologic memory in several syngeneic tumor models. The immunomodulatory activity can be enhanced by combination with other immunotherapies. Strikingly, in some models, the combination of anti-SEMA4D antibody with immune checkpoint blockade acts synergistically to reverse tumor growth. Inhibition of SEMA4D represents a novel mechanism and therapeutic strategy to promote functional immune infiltration into the tumor and inhibit tumor progression. A humanized antibody, VX15/2503, has completed a Phase I prospective multiple ascending dose trial in 42 adult patients with advanced refractory solid tumors, in which the highest doses were well tolerated. Patients with the longest duration of treatment, 48-55 weeks, included colorectal, breast, and a papillary thyroid patient, who had a partial response by RECIST. A phase 1b/2a trial of combination therapy is planned.

Published

2015

14. Abstract 5030: Antibody blockade of Semaphorin 4D promotes tumor rejection and improves response to immune checkpoint blockade and chemotherapy

Author

Terrence L. Fisher, Michael A. Doherty, Renee Kirk, Jennifer Seils, Valerie Iddison, Alan Howell, Ernest S. Smith, Elizabeth E. Evans, Mark Paris, Alan S. Jonason, John E. Leonard, Crystal Mallow, Maria Scrivens, Maurice Zauderer, Sebold Torno, Leslie Balch, Janaki Veeraraghavan, William J. Bowers, Holm Bussler, and Christine Reilly

Subjects

Cancer Research, Tumor microenvironment, SEMA4D, Cancer, Biology, medicine.disease, Immune checkpoint, Metastasis, Immune system, Oncology, Tumor progression, Immunology, medicine, biology.protein, Antibody

Abstract

Semaphorin4D (SEMA4D) normally functions to regulate, adhesion, motility and activation state of multiple cell types including those of the nervous, vascular and immune systems. In the setting of cancer, SEMA4D has been shown to promote tumor progression and metastasis. SEMA4D and its high affinity receptor plexin B1 are broadly expressed in human and murine tumors, and expression levels correlate with invasive disease in several human tumors. The interaction of plexin B1 with MET and ERBB2 can lead to SEMA4D-mediated transactivation of these membrane receptor kinases with a direct effect on tumor cell migration and invasive growth. Moreover, SEMA4D is highly expressed by inflammatory cells that are recruited to the tumor microenvironment. Purpose: Determine the role(s) of SEMA4D in shaping the tumor microenvironment, and investigate the anti-tumor response mediated by antibody neutralization of SEMA4D as a single agent or in combination with other immunomodulatory therapies. Methods: Subcutaneous colon and orthotopic ERBB2+ breast carcinoma models were employed to investigate treatment with a monoclonal antibody to SEMA4D. Anti-tumor response and tumor infiltrating immune cell profiles were characterized by in vivo growth kinetics, immunohistochemistry, FACS, and functional assays. Results: We describe an immunomodulatory function of SEMA4D within the tumor microenvironment, whereby SEMA4D influences the recruitment and activity of cytotoxic CD8+ T cells, the density of B cells within the tumor, and regulates the balance and localization of inflammatory M1 and tolerance-inducing M2 macrophage in tumor stroma. Antibody blockade of SEMA4D modifies the balance of immune cells and production of pro-inflammatory cytokines within the tumor microenvironment, promotes tumor rejection, and induces ∼30% tumor growth delay (TGD) in Colon26 and >70% TGD in Tubo breast tumor models. Furthermore, combination of SEMA4D antibody with immune checkpoint blockade inhibitor antibodies to CTLA4 and PD1, significantly improves frequency of complete tumor rejection (58% and 37%) and increases survival (>295% and >55% TGD respectively) as compared to monotherapy with these targeted agents. Similar combinatorial effects were observed when anti-SEMA4D antibody is administered with immunomodulatory chemotherapy, such as cyclophosphamide, which increases efficacy (81% TGD) and frequency of complete rejection (40%) in tumor engrafted mice. Conclusion: SEMA4D represents a novel immunological target and antibody neutralization of SEMA4D may be a novel therapeutic option for cancer treatment. The humanized anti-SEMA4D antibody, VX15/2503, has successfully completed IND-enabling toxicology testing and the dose escalation phase of a Phase I trial, in which the highest doses were well tolerated in adult patients with advanced solid tumors. Citation Format: Elizabeth E. Evans, Holm Bussler, Sebold Torno, Janaki Veeraraghavan, Alan S. Jonason, Michael A. Doherty, Christine Reilly, Crystal Mallow, Jennifer Seils, Mark Paris, Terrence L. Fisher, William J. Bowers, Maria Scrivens, Leslie Balch, Renee Kirk, Alan Howell, Valerie Iddison, John E. Leonard, Ernest S. Smith, Maurice Zauderer. Antibody blockade of Semaphorin 4D promotes tumor rejection and improves response to immune checkpoint blockade and chemotherapy. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 5030. doi:10.1158/1538-7445.AM2014-5030

Published

2014

15. Abstract 1245: Reduction of tumor growth and metastasis by a humanized IgG4 monoclonal antibody to SEMA4D (VX15/2503)

Author

Terrence L. Fisher, John E. Leonard, Alan Howell, Maria Scrivens, Laurie A. Winter, Elizabeth E. Evans, He Huang, Renee Kirk, Jessica Decker, Tracy Pandina, Mark Paris, Alan S. Jonason, Maurice Zauderer, Michael A. Doherty, Ernest S. Smith, Holm Bussler, Christine Reilly, Sebold Torno, Leslie Balch, and Jennifer Seils

Subjects

Cancer Research, Tumor microenvironment, biology, Angiogenesis, SEMA4D, medicine.disease, Humanized antibody, Metastasis, Immune system, Oncology, Tumor progression, Immunology, medicine, biology.protein, Cancer research, Antibody

Abstract

Semaphorin 4D (SEMA4D; CD100) has been implicated in several key mechanisms of tumor progression, including transactivation of several oncogenes, metastasis, tumor invasion, and neovascularization. Expression of SEMA4D and its receptor plexin-B1 (PLXNB1) correlates with invasive disease in humans. SEMA4D is over-expressed in a wide array of tumor types and is also produced by inflammatory cells recruited to the tumor microenvironment. SEMA4D binding to PLXNB1 on endothelial cells activates RhoA and AKT signaling pathways, which promotes formation of new blood vessels and tumor growth in vivo. In addition to its effects on endothelial cells, the interaction of PLXNB1 with MET and ERBB2 can lead to SEMA4D-mediated transactivation of these membrane receptor kinases with a direct effect on tumor cell migration and invasive growth. It is well known that tumor growth and metastasis involve a complex process of cross talk amongst the tumor cells, stroma and immune infiltrate, as well as the endothelial cells and vasculature. Our understanding of the role of SEMA4D in this process is evolving. We selected a humanized IgG4 antibody, VX15/2503, that blocks SEMA4D interaction with the high affinity receptor PLXNB1 and a lower affinity receptor, CD72, expressed on immune cells. The antibody binds with between 1-5 nM affinity to rat, mouse, primate, and human recombinant SEMA4D. Affinity to native cell-associated SEMA4D on primary human T cells was, however, determined to be 0.5 nM. We demonstrate that antibody-mediated SEMA4D neutralization delays tumor growth in several primary and metastatic in vivo models. Inhibition of SEMA4D regulates angiogenesis and vascular permeability in these models. Additionally, tumor growth delay results from modulation of the tumor microenvironment, such as infiltrating immune cells. We also demonstrate direct effects of SEMA4D/PLXNB1 interaction acting as a guidance signal for tumors, as previously described for axons, whereby tumor migration is affected ∼80%. Antibody blockade restores these functional activities. Moreover, using a genetic fingerprinting approach, we identified a unique gene signature that is related to changes in PLXNB1 expression and sensitivity to existing targeted therapies. This signature sheds light on combination therapies with anti-SEMA4D antibodies that may produce additive anti-tumor effects. In summary, blockade of SEMA4D reduces tumor growth through effects on tumor microenvironment, angiogenesis and vascular permeability, as well as direct effects on tumor. Therefore, antibody neutralization of SEMA4D represents a new therapeutic strategy for cancer treatment. The humanized antibody, VX15/2503, has successfully completed IND-enabling toxicology testing and a Phase I trial is currently being conducted in adult patients with advanced solid tumors. Citation Format: Elizabeth E. Evans, Alan S. Jonason, Mark Paris, Terrence L. Fisher, Sebold Torno, Holm Bussler, Jessica Decker, Maria Scrivens, He Huang, Laurie A. Winter, Tracy Pandina, Leslie Balch, Michael A. Doherty, Renee Kirk, Alan Howell, Jennifer Seils, Christine Reilly, Maurice Zauderer, John E. Leonard, Ernest S. Smith. Reduction of tumor growth and metastasis by a humanized IgG4 monoclonal antibody to SEMA4D (VX15/2503). [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 1245. doi:10.1158/1538-7445.AM2013-1245 Note: This abstract was not presented at the AACR Annual Meeting 2013 because the presenter was unable to attend.

Published

2013

16. Abstract 2531: Reduction of In Vivo Tumor Growth and Angiogenesis by a Humanized IgG4 Monoclonal Antibody to SEMA4D

Author

Alan S. Jonason, Terrence L. Fisher, Sebold Torno, Holm Bussler, Michael A. Doherty, Laurie A. Winter, Christine Reilly, Renee Kirk, Alan Howell, He Huang, Jeff Caplan, Patrick Kenney, Maria Scrivens, Tracy Pandina, Leslie Croy, Elizabeth E. Evans, Mark Paris, Raymond Watkins, Maurice Zauderer, John E. Leonard, and Ernest S. Smith

Subjects

Cancer Research, Oncology

Abstract

Semaphorin 4D (SEMA4D; CD100) has been implicated in several key mechanisms of tumor progression, including metastasis, tumor invasion, and neovascularization. SEMA4D binding to its receptor plexin-B1 (PLXNB1) on endothelial cells activates RhoA and AKT signaling pathways, which promotes formation of new blood vessels and tumor growth in vivo. SEMA4D is over-expressed in a wide array of tumor types, and is also produced by inflammatory cells recruited to the tumor microenvironment, such as tumor-associated macrophages. In addition to its effects on endothelial cells, the interaction of PLXNB1 with MET and ERBB2 can lead to SEMA4D-mediated transactivation of these membrane receptor kinases with a direct effect on tumor cell migration and invasive growth. Collectively, these results suggest that expression of SEMA4D, either by tumor cells or by tumor associated inflammatory cells, functions as a crucial factor in tumor metastatic potential, and that expression of SEMA4D and/ or its high affinity receptor in tumors induces neovascularization and increases overall tumor aggressiveness. Antibody neutralization of SEMA4D represents a new therapeutic strategy for cancer treatment. We selected a humanized IgG4 antibody, VX15/2503, that binds with roughly 3 nM affinity to rat, mouse, primate, and human SEMA4D. We utilized cellular collapse, flow cytometric and other in vitro functional assays to demonstrate that this antibody blocks SEMA4D interaction with PLXNB1. Using both this antibody and its mouse IgG1 equivalent, MAb 67-2, we have demonstrated that antibody-mediated SEMA4D neutralization blocks tumor growth in CT26 tumor grafts with a tumor growth delay (TGD) of 42% and BCA34 (TGD 18%) tumor grafts, as well as RIP-Tag2, with a tumor growth inhibition (TGI) of 56%, and Tyr:NRAS (TGD 52%) spontaneous tumor models. In summary, we demonstrate that antibody mediated neutralization of SEMA4D in vivo inhibits tumor growth and tumor angiogenesis in a variety of tumor models. The humanized antibody, VX15/2503, has successfully completed IND-enabling toxicology testing and a Phase I trial is currently being conducted in adult patients with advanced solid tumors. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 2531. doi:1538-7445.AM2012-2531

Published

2012

17. Abstract 3667: Reduction of in vivo tumor growth and angiogenesis by a humanized IgG4 monoclonal antibody to SEMA4D

Author

Jeff Caplan, Renee Kirk, Christine Reilly, Maria Scrivens, Maurice Zauderer, Mark Paris, Alan Howell, Laurie A. Winter, Raymond Watkins, Sebold Torno, Holm Bussler, He Huang, Patrick Kenney, Ernest S. Smith, Terrence L. Fisher, Leslie A. Croy, Elizabeth E. Evans, Alan S. Jonason, and John E. Leonard

Subjects

Cancer Research, Pathology, medicine.medical_specialty, Tumor microenvironment, CD30, Angiogenesis, Tumor M2-PK, Biology, medicine.disease, Metastasis, Neovascularization, Oncology, Tumor progression, Cancer cell, medicine, medicine.symptom

Abstract

Semaphorin 4D (SEMA4D; CD100) has been implicated in several key mechanisms of tumor progression, including neovascularization, tumor invasion, and metastasis. SEMA4D binding to its receptor plexin-B1 (PLXNB1) on endothelial cells transactivates MET and promotes formation of new blood vessels and tumor growth in vivo. SEMA4D is over-expressed in a wide array of tumor types, and is also produced by recruited inflammatory cells present in the tumor microenvironment. Several recent papers have shown that in an environment lacking SEMA4D, the ability of mouse cancer cells to originate tumor masses and metastases is severely impaired. Furthermore, SEMA4D produced by tumor-associated macrophages has been shown to support tumor angiogenesis and growth. In addition to its effects on endothelial cells, SEMA4D has a direct effect on tumor invasive growth and migration. A recent clinical study in soft tissue sarcomas correlates strong SEMA4D expression in tumors with a higher mitotic count and poor prognosis. SEMA4D binding to PLXNB1 on tumor cells results in MET transactivation and migration of tumor cells. It has been further reported that overexpression of PLXNB1 and MET in breast and ovarian cancers is a negative prognostic factor. Tumors co-expressing PLXNB1 and MET were characterized as having a higher grade and an increased frequency of metastases. Collectively, these results suggest that expression of SEMA4D, either by tumor cells or by tumor associated inflammatory cells, functions as a crucial factor in tumor neovascularization, and that expression of the SEMA4D and/ or its high affinity receptor in tumors may further induce tumor growth rate and metastatic potential. Antibody neutralization of SEMA4D thus may represent a new therapeutic strategy for cancer treatment. We selected a humanized IgG4 antibody that binds with high affinity to rat, mouse, primate, and human SEMA4D, and utilized several in vitro functional assays to demonstrate that this antibody blocks SEMA4D – PLXNB1 interactions. Using syngeneic, xenograft and orthotopic tumor models we demonstrated that antibody mediated neutralization of SEMA4D in vivo inhibits tumor growth and tumor angiogenesis. This humanized antibody has successfully completed IND-enabling toxicology testing and we anticipate the initiation of human clinical trials in early 2011. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 3667. doi:10.1158/1538-7445.AM2011-3667

Published

2011

18. Abstract LB-36: Antibody mediated neutralization of sema4D reduces tumor angiogenesis and growth In Vivo

Author

Ji Li, Renee Kirk, Alan Howell, John E. Leonard, Patrick Kenney, Mark Paris, Alan S. Jonason, Holm Bussler, Maurice Zauderer, Terrance Fisher, Jeff Caplan, Christine Reilly, Ernest S. Smith, Laurie A. Winter, Raymond Watkins, Maria Scrivens, Elizabeth E. Evans, and Sebold Torno

Subjects

Cancer Research, Pathology, medicine.medical_specialty, Tumor microenvironment, biology, CD30, SEMA4D, Cancer, Tumor M2-PK, medicine.disease, Neovascularization, Oncology, In vivo, biology.protein, medicine, Cancer research, Antibody, medicine.symptom

Abstract

It has been demonstrated that semaphorin 4D (SEMA4D; CD100) is a potent pro-angiogenic molecule. SEMA4D binding to its receptor plexin-B1 (PLXNB1) on endothelial cells transactivates c-MET and promotes formation of new blood vessels and tumor growth in vivo. SEMA4D is over-expressed in a wide array of tumor types, and is also produced by inflammatory cells present in the tumor microenvironment. It has recently been demonstrated that in an environment lacking SEMA4D, the ability of mouse breast cancer cells to originate tumor masses and metastases is severely impaired, and that SEMA4D produced by tumor associated macrophages is required for tumor angiogenesis and growth. In addition to its effects on endothelial cells, SEMA4D binding to PLXNB1 on tumor cells results in MET transactivation and migration of tumor cells. It has been further reported that overexpression of PLXNB1 and MET in breast and ovarian cancers is a negative prognostic factor. Tumors co-expressing PLXNB1 and MET were characterized as having a higher grade and an increased frequency of metastases. Collectively, these results suggest that expression of SEMA4D, either by tumor cells or by tumor associated macrophages, may represent a mechanism of tumor neovascularization, and that expression of the SEMA4D receptor in tumors may further induce tumor invasion, thereby enhancing their growth, survival, and metastatic potential. Antibody neutralization of SEMA4D thus may represent a new therapeutic strategy for cancer treatment. We selected a high affinity human IgG4 antibody that is specific for both mouse and human SEMA4D, and utilized several in vitro functional assays to demonstrate that this antibody blocks SEMA4D - PLXNB 1 interactions. Using both transplanted and orthotopic tumor models we demonstrated that antibody mediated SEMA4D neutralization in vivo inhibits tumor growth and tumor angiogenesis. This human antibody is currently in IND-enabling toxicology testing and we anticipate the initiation of human clinical trials in 2H 2010. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr LB-36.

Published

2010

19. SEMA4D compromises blood–brain barrier, activates microglia, and inhibits remyelination in neurodegenerative disease

Author

Sebold Torno, Jennifer Seils, Crystal Mallow, Chad A. Cornelius, Elizabeth E. Evans, Janaki Veeraraghavan, Ernest S. Smith, Mark Paris, Gareth R. John, Alan S. Jonason, Ekaterina Klimatcheva, Michael A. Doherty, Trinh Pham, John E. Leonard, Maurice Zauderer, William J. Bowers, Terrence L. Fisher, Renee Kirk, Alan Howell, Damir Janigro, Azeb Tadesse Argaw, Christine Reilly, Holm Bussler, and Nicola Marchi

Subjects

Male, Monoclonal antibody, Encephalomyelitis, Autoimmune, Experimental, SEMA4D, Semaphorins, Biology, Semaphorin-4D, Blood–brain barrier, lcsh:RC321-571, Rats, Sprague-Dawley, Multiple sclerosis, Myelin, Mice, Neuroinflammation, medicine, Animals, Remyelination, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Microglia, Oligodendrocytes, Experimental autoimmune encephalomyelitis, Antibodies, Monoclonal, medicine.disease, Rats, Mice, Inbred C57BL, Oligodendroglia, medicine.anatomical_structure, Neurology, nervous system, Blood-Brain Barrier, Female, Neuroscience

Abstract

Multiple sclerosis (MS) is a chronic neuroinflammatory disease characterized by immune cell infiltration of CNS, blood–brain barrier (BBB) breakdown, localized myelin destruction, and progressive neuronal degeneration. There exists a significant need to identify novel therapeutic targets and strategies that effectively and safely disrupt and even reverse disease pathophysiology. Signaling cascades initiated by semaphorin 4D (SEMA4D) induce glial activation, neuronal process collapse, inhibit migration and differentiation of oligodendrocyte precursor cells (OPCs), and disrupt endothelial tight junctions forming the BBB. To target SEMA4D, we generated a monoclonal antibody that recognizes mouse, rat, monkey and human SEMA4D with high affinity and blocks interaction between SEMA4D and its cognate receptors. In vitro, anti-SEMA4D reverses the inhibitory effects of recombinant SEMA4D on OPC survival and differentiation. In vivo, anti-SEMA4D significantly attenuates experimental autoimmune encephalomyelitis in multiple rodent models by preserving BBB integrity and axonal myelination and can be shown to promote migration of OPC to the site of lesions and improve myelin status following chemically-induced demyelination. Our study underscores SEMA4D as a key factor in CNS disease and supports the further development of antibody-based inhibition of SEMA4D as a novel therapeutic strategy for MS and other neurologic diseases with evidence of demyelination and/or compromise to the neurovascular unit.

20. Antibody blockade of semaphorin 4D breaks down barriers to enhance tumoricidal immune infiltration and supports rational immunotherapy combinations

Author

Holm Bussler, Maria Scrivens, Leslie Balch, Janaki Veeraraghavan, John E. Leonard, Ernest S. Smith, Ekaterina Klimatcheva, Sebold Torno, Siwen Hu-Lieskovan, Terrence L. Fisher, Alan Howell, Laurie A. Winter, Crystal Mallow, Elizabeth E. Evans, Antoni Ribas, Maurice Zauderer, Renee Kirk, Mark Paris, Alan S. Jonason, and Christine Reilly

Subjects

Cancer Research, Cell type, animal structures, medicine.medical_treatment, Immunology, SEMA4D, Motility, medicine, Immunology and Allergy, Receptor, Pharmacology, biology, business.industry, Cancer, Immunotherapy, medicine.disease, Blockade, nervous system, Oncology, Poster Presentation, embryonic structures, biology.protein, Molecular Medicine, Antibody, business

Abstract

Meeting abstracts Semaphorin 4D (SEMA4D, CD100) and its receptor plexin-B1 are broadly expressed in cancer and expression correlates with invasive disease in several human tumors. SEMA4D normally functions to regulate the motility and differentiation of multiple cell types, including those of the