Abstract: Intact, non-replicating or replication-deficient poxvirus acts as an adjuvant when administered with mechanical disruption, with or without a T cell antigen. Compositions and methods for inducing T cell mediated immune responses to antigen in epithelial tissues of a subject are provided.

Abstract: Methods of using T cell frequency (TCFR) in melanoma, e.g., as determined by high throughput DNA sequencing of the TCRB gene, as a predictor of disease progression and survival in patients with primary melanoma, and to select and treat subjects.

Abstract: Methods for treating, or reducing risk of development or progression of, a tissue-resident memory T cells (TRM)-mediated disease, comprising administering a therapeutically effective amount of one or more inhibitors of exogenous lipid and free fatty acid uptake or of mitochondrial beta oxidation of internalized exogenous FFA (e.g., inhibitors of CD36 and/or FABP antagonists, e.g., inhibitors of FABP4 and/or FABP5, and/or CPT1) to a subject in need thereof.

Abstract: Methods of using T cell frequency (TCFR) in melanoma, e.g., as determined by high throughput DNA sequencing of the TCRB gene, as a predictor of disease progression and survival in patients with primary melanoma, and to select and treat subjects.

Abstract: The present invention provides affinity matured humanized monoclonal antibodies, bi-specific antibodies, antibody conjugates, and fusion proteins that bind to the chemokine receptor CCR4. This antibody is derived from mAb 1567 and recognizes the same epitope. Binding of the antibodies disclosed herein to CCR4 inhibits ligand-mediated activities and is used to treat symptoms of cancer. Moreover, the antibody is used in combination with vaccines to suppress the activity of regulatory T cells.

Abstract: The present invention provides affinity matured humanized monoclonal antibodies, bi-specific antibodies, antibody conjugates, and fusion proteins that bind to the chemokine receptor CCR4. This antibody is derived from mAb 1567 and recognizes the same epitope. Binding of the antibodies disclosed herein to CCR4 inhibits ligand-mediated activities and is used to treat symptoms of cancer. Moreover, the antibody is used in combination with vaccines to suppress the activity of regulatory T cells.

Abstract: Described herein are methods for the treatment of cancer (e.g. melanoma, lung cancer, or other cancers). The methods involve administrating to a subject in need thereof an agonist of the IL-9 receptor (e.g. IL-9), e.g. an agent that binds and activates the IL-9 receptor, or an agent that increases IL-9 expression in the subject (e.g. administration of TH9 cells that express IL-9, or administration of an inhibitor of ROR).

Abstract: The present invention provides affinity matured humanized monoclonal antibodies, bi-specific antibodies, antibody conjugates, and fusion proteins that bind to the chemokine receptor CCR4. This antibody is derived from mAb 1567 and recognizes the same epitope. Binding of the antibodies disclosed herein to CCR4 inhibits ligand-mediated activities and is used to treat symptoms of cancer. Moreover, the antibody is used in combination with vaccines to suppress the activity of regulatory T cells.

Abstract: The present invention provides affinity matured humanized monoclonal antibodies, bi-specific antibodies, antibody conjugates, and fusion proteins that bind to the chemokine receptor CCR4. This antibody is derived from mAb 1567 and recognizes the same epitope. Binding of the antibodies disclosed herein to CCR4 inhibits ligand-mediated activities and is used to treat symptoms of cancer. Moreover, the antibody is used in combination with vaccines to suppress the activity of regulatory T cells.

Abstract: Attenuated, replication-deficient viruses such as vaccinia viruses are used to deliver an exogenous viral, bacterial, parastic or tumor antigen to an epidermal tissue such as the skin, lungs or gastrointestinal tract, which has been mechanically disrupted, in an amount effective to elicit or stimulate a cell mediated immune response. The epidermis may be mechanically disrupted prior to, at the same time, or immediately after the administration of the vaccine. The vaccine can be used to induce immunity against a pathogen, such as a virus, bacteria, or parasite, or against a cancer in a subject that has or is at risk of developing cancer.

Abstract: The present invention provides affinity matured humanized monoclonal antibodies, bi-specific antibodies, antibody conjugates, and fusion proteins that bind to the chemokine receptor CCR4. This antibody is derived from mAb 1567 and recognizes the same epitope. Binding of the antibodies disclosed herein to CCR4 inhibits ligand-mediated activities and is used to treat symptoms of cancer. Moreover, the antibody is used in combination with vaccines to suppress the activity of regulatory T cells.

Abstract: Attenuated, replication-deficient viruses such as vaccinia viruses are used to deliver an exogenous viral, bacterial, parastic or tumor antigen to an epidermal tissue such as the skin, lungs or gastrointestinal tract, which has been mechanically disrupted, in an amount effective to elicit or stimulate a cell mediated immune response. The epidermis may be mechanically disrupted prior to, at the same time, or immediately after the administration of the vaccine. The vaccine can be used to induce immunity against a pathogen, such as a virus, bacteria, or parasite, or against a cancer in a subject that has or is at risk of developing cancer.

Abstract: Described herein are methods for the treatment of cancer (e.g. melanoma, lung cancer, or other cancers). The methods involve administrating to a subject in need thereof an agonist of the IL-9 receptor (e.g. IL-9), e.g. an agent that binds and activates the IL-9 receptor, or an agent that increases IL-9 expression in the subject (e.g. administration of TH9 cells that express IL-9, or administration of an inhibitor of ROR).

Abstract: Attenuated, replication-deficient viruses such as vaccinia viruses are used to deliver an exogenous viral, bacterial, parasitic or tumor antigen to an epidermal tissue such as the skin, lungs or gastrointestinal tract, which has been mechanically disrupted, in an amount effective to elicit or stimulate a cell mediated immune response. The epidermal tissue may be mechanically disrupted by a device such as a scarification needle or an abrader device. The epidermis may be mechanically disrupted prior to, at the same time, or immediately after the administration of the vaccine. The vaccine can be used to induce immunity against a pathogen, such as a virus, bacteria, or parasite, or against a cancer in a subject that has or is at risk of developing cancer. In some embodiments a co-stimulatory molecule, a growth factor, an adjuvant and/or a cytokine is administered before, with or after the viral vaccine. In some embodiments, the co-stimulatory molecule is co-expressed with the antigen by the virus.

Abstract: Attenuated, replication-deficient viruses such as vaccinia viruses are used to deliver an exogenous viral, bacterial, parasitic or tumor antigen to an epidermal tissue such as the skin, lungs or gastrointestinal tract, which has been mechanically disrupted, in an amount effective to elicit or stimulate a cell mediated immune response. The epidermal tissue may be mechanically disrupted by a device such as a scarification needle or an abrader device. The epidermis may be mechanically disrupted prior to, at the same time, or immediately after the administration of the vaccine. The vaccine can be used to induce immunity against a pathogen, such as a virus, bacteria, or parasite, or against a cancer in a subject that has or is at risk of developing cancer. In some embodiments a co-stimulatory molecule, a growth factor, an adjuvant and/or a cytokine is administered before, with or after the viral vaccine. In some embodiments, the co-stimulatory molecule is co-expressed with the antigen by the virus.

Abstract: The invention provides isolated dendritic cells genetically modified to express a selectin polypeptide, optionally treated with activated platelets or membrane microparticles thereof. The invention also provides isolated platelet modified dendritic cells. Methods for delivering the modified dendritic cells to peripheral lymph nodes and methods for using the modified dendritic cells to stimulate immune responses also are provided. Vaccine compositions containing the modified dendritic cells also are provided.