Abstract: Combinations of anti-cancer antibodies and inhibitory antibodies to CD223 overcome immune suppression in cancer patients. The inhibitory antibodies may be generated in an animal by injection of fragments of CD223. Antibodies may be monoclonal antibodies or single chain antibodies or humanized antibodies.

Abstract: Combinations of anti-cancer antibodies and inhibitory antibodies to CD223 overcome immune suppression in cancer patients. The inhibitory antibodies may be generated in an animal by injection of fragments of CD223. Antibodies may be monoclonal antibodies or single chain antibodies or humanized antibodies.

Abstract: Anti-CD223 antibodies overcome immune suppression in cancer patients. The anti-CD223 antibodies may be generated in an animal by injection of fragments of CD223. Antibodies may be monoclonal antibodies or single chain antibodies or humanized antibodies.

Abstract: The receptor for Interleukin 35 (IL-35) is provided. The Interleukin 35 Receptor (IL-35R) comprises a heterodimeric complex of the Interleukin12R?2 receptor and the gp130 receptor. Various compositions comprising the IL-35R complex, along with polynucleotides encoding the same and kits and methods for the detection of the same the same are provided. Methods of modulating the activity of IL-35R or modulating effector T cell functions are also provided. Such methods employ various IL-35R antagonists and agonists that modulate the activity of the IL-35R complex and, in some embodiments, modulate effector T cell function. Further provided are methods for screening for IL-35R binding agents and for IL-35R modulating agents. Various methods of treatment are further provided.

Abstract: The invention is directed to treatment of cancer, infections and various inflammatory and autoimmune conditions by affecting regulatory T cell stability and function via a Neuropilin-1:Semaphorin axis.

Abstract: The receptor for Interleukin 35 (IL-35) is provided. The Interleukin 35 Receptor (IL-35R) comprises a heterodimeric complex of the Interluekin12R?2 receptor and the gp130 receptor. Various compositions comprising the IL-35R complex, along with polynucleotides encoding the same and kits and methods for the detection of the same the same are provided. Methods of modulating the activity of IL-35R or modulating effector T cell functions are also provided. Such methods employ various IL-35R antagonists and agonists that modulate the activity of the IL-35R complex and, in some embodiments, modulate effector T cell function. Further provided are methods for screening for IL-35R binding agents and for IL-35R modulating agents. Various methods of treatment are further provided.

Abstract: Combinations of anti-cancer antibodies and inhibitory antibodies to CD223 overcome immune suppression in cancer patients. The inhibitory antibodies may be generated in an animal by injection of fragments of CD223. Antibodies may be monoclonal antibodies or single chain antibodies or humanized antibodies.

Abstract: The receptor for Interleukin 35 (IL-35) is provided. The Interleukin 35 Receptor (IL-35R) comprises a heterodimeric complex of the Interluekin12R?2 receptor and the gp130 receptor. Various compositions comprising the IL-35R complex, along with polynucleotides encoding the same and kits and methods for the detection of the same the same are provided. Methods of modulating the activity of IL-35R or modulating effector T cell functions are also provided. Such methods employ various IL-35R antagonists and agonists that modulate the activity of the IL-35R complex and, in some embodiments, modulate effector T cell function. Further provided are methods for screening for IL-35R binding agents and for IL-35R modulating agents. Various methods of treatment are further provided.

Abstract: The invention is directed to treatment of cancer, infections and various inflammatory and autoimmune conditions by affecting regulatory T cell stability and function via a Neuropilin-1:Semaphorin axis.

Abstract: Methods for regulating T cell function in a subject, particularly regulatory T cell activity are provided. Methods of the invention include administering to a subject a therapeutically effective amount of an Interleukin 35-specific binding agent, such as an antibody or small molecule inhibitor. The invention further provides methods for enhancing the immunogenicity of a vaccine or overcoming a suppressed immune response to a vaccine in a subject, including administering to the subject a therapeutically effective amount of an IL35-specific binding agent and administering to the subject a vaccine. In one embodiment the vaccine is a cancer vaccine.

Abstract: The invention is directed to treatment of cancer, infections and various inflammatory and autoimmune conditions by affecting regulatory T cell stability and function via a Neuropilin-1:Semaphorin axis. The present invention satisfies this and other needs by demonstrating that the regulatory T cell (Treg)-restricted neuropilin-1 (Nrp 1) interacts with the cell surface ligand semaphorin-4a (Sema4a) (e.g., on conventional T cells (Tconv), conventional dendritic cells (cDCs), and/or plasmacytoid dendritic cells (pDCs)) to potentiate reg function and enhance their survival at inflammatory sites.

Abstract: Methods for regulating T cell function in a subject, particularly regulatory T cell activity are provided. Methods of the invention include administering to a subject a therapeutically effective amount of an Interleukin 35-specific binding agent, such as an antibody or small molecule inhibitor. The invention further provides methods for enhancing the immunogenicity of a vaccine or overcoming a suppressed immune response to a vaccine in a subject, including administering to the subject a therapeutically effective amount of an IL35-specific binding agent and administering to the subject a vaccine. In one embodiment the vaccine is a cancer vaccine.

Abstract: Combinations of anti-cancer antibodies and inhibitory antibodies to CD223 overcome immune suppression in cancer patients. The inhibitory antibodies may be generated in an animal by injection of fragments of CD223. Antibodies may be monoclonal antibodies or single chain antibodies or humanized antibodies.

Abstract: Methods for regulating T cell function in a subject, particularly regulatory T cell activity are provided. Methods of the invention include administering to a subject a therapeutically effective amount of an Interleukin 35-specific binding agent, such as an antibody or small molecule inhibitor. The invention further provides methods for enhancing the immunogenicity of a vaccine or overcoming a suppressed immune response to a vaccine in a subject, including administering to the subject a therapeutically effective amount of an IL35-specific binding agent and administering to the subject a vaccine. In one embodiment the vaccine is a cancer vaccine.

Abstract: Methods for regulating T cell function in a subject, particularly regulatory T cell activity are provided. Methods of the invention include administering to a subject a therapeutically effective amount of an Interleukin 35-specific binding agent, such as an antibody or small molecule inhibitor. The invention further provides methods for enhancing the immunogenicity of a vaccine or overcoming a suppressed immune response to a vaccine in a subject, including administering to the subject a therapeutically effective amount of an IL35-specific binding agent and administering to the subject a vaccine. In one embodiment the vaccine is a cancer vaccine.

Abstract: The invention is directed to treatment of cancer, infections and various inflammatory and autoimmune conditions by affecting regulatory T cell stability and function via a Neuropilin-1:Semaphorin axis. The present invention satisfies this and other needs by demonstrating that the regulatory T cell (Treg)-restricted neuropilin-1 (Nrp 1) interacts with the cell surface ligand semaphorin-4a (Sema4a) (e.g., on conventional T cells (Tconv), conventional dendritic cells (cDCs), and/or plasmacytoid dendritic cells (pDCs)) to potentiate reg function and enhance their survival at inflammatory sites.

Abstract: Mammals with cancer are treated with an antibody which specifically binds to CD223 protein and inhibits negative T cell regulatory function of CD223. The mammal may be a human. The antibody may be a monoclonal antibody. The amount of the antibody administered may be sufficient to enhance an immune T cell response to the cancer.

Abstract: Methods for regulating T cell function in a subject, particularly regulatory T cell activity are provided. Methods of the invention include administering to a subject a therapeutically effective amount of an Interleukin 35-specific binding agent, such as an antibody or small molecule inhibitor. The invention further provides methods for enhancing the immunogenicity of a vaccine or overcoming a suppressed immune response to a vaccine in a subject, including administering to the subject a therapeutically effective amount of an IL35-specific binding agent and administering to the subject a vaccine. In one embodiment the vaccine is a cancer vaccine.

Abstract: Methods for regulating T cell function in a subject, particularly regulatory T cell activity are provided. Methods of the invention include administering to a subject a therapeutically effective amount of an Interleukin 35-specific binding agent, such as an antibody or small molecule inhibitor. The invention further provides methods for enhancing the immunogenicity of a vaccine or overcoming a suppressed immune response to a vaccine in a subject, including administering to the subject a therapeutically effective amount of an IL35-specific binding agent and administering to the subject a vaccine. In one embodiment the vaccine is a cancer vaccine.

Abstract: Regulatory T cells (Treg) limit autoimmunity but can also attenuate the magnitude of anti-pathogen and anti-tumor immunity. Understanding the mechanism of Treg function and therapeutic manipulation of Treg in vivo requires identification of Treg selective receptors. A comparative analysis of gene expression arrays from antigen specific CD4+ T cells differentiating to either an effector/memory or a regulatory phenotype revealed Treg selective expression of LAG-3 (CD223), a CD4-related molecule that binds MHC class II. LAG-3 expression on CD4+ T cells correlates with the cells' in vitro suppressor activity, and ectopic expression of LAG-3 on CD4 T cells confers suppressor activity on the T cells. Antibodies to LAG-3 inhibit suppression both in vitro and in vivo. LAG-3 marks regulatory T cell populations and contributes to their suppressor activity.