The present invention relates to an ex vivo, fast and efficient process to obtain activated antigen-presenting cells that are useful for therapies against cancer and immune system-related diseases. At the same time, it is related to a cellular composition that contributes to stimulate the activated antigen-presenting cells to induce a specific immune response against tumors in patients with cancer or other pathologies involving immune responses.

This invention provides the field of therapeutics. Most specifically present invention provides methods of generating in vitro engineered dendritic cells conditionally expressing interleukin-12 (IL-12) under the control of a gene expression modulation system in the presence of activating ligand and uses for therapeutic purposes in animals including human.

This invention provides the field of therapeutics. Most specifically present invention provides methods of generating in vitro engineered dendritic cells conditionally expressing interleukin-12 (IL-12) under the control of a gene expression modulation system in the presence of activating ligand and uses for therapeutic purposes in animals including human.

The invention provides improved screening methods for testing T cell recognition of T cell epitopes.

The present invention relates to a polypeptide for delivering an antigen to immune cells and, specifically, to: a novel polypeptide comprising a cell membrane penetrating peptide and a peptide binding to a surface molecule on immune cells; a fusion polypeptide in which an antigen is coupled to the polypeptide; a nucleic acid coding for the polypeptide or the fusion polypeptide; an immune cell sensitized with the fusion polypeptide or the nucleic acid coding therefor; and an immunotherapeutic agent, antitumor or anticancer vaccine, and a composition for treating a tumor or cancer, each comprising the immune cell.

The subject matter disclosed herein is generally directed to CD8+ tumor infiltrating lymphocytes comprising gene signatures associated with response to immunotherapy treatment. Moreover, the subject matter disclosed herein is generally directed to methods and compositions for use of the gene signatures. Specifically, disclosed herein are gene signatures associated with response to checkpoint blockade therapy and immune cell subtypes characterized by said gene signatures. Further disclosed are methods of using said gene signatures and immune cell subtypes. Further disclosed are pharmaceutical compositions comprising populations of CD8+ TILs enriched for a specific subtype.

A vector containing a first nucleotide sequence S1 encoding a protein Z1, a second nucleotide sequence S2 encoding a protein Z2, a third nucleotide sequence S3 encoding a protein Y1, and a fourth nucleotide sequence S4 encoding a protein Y2, in which Z1 and Z2 form a first dimer and Y1 and Y2 form a second dimer, in which the first dimer Z1Z2 is different from the second dimer Y1Y2.

In certain embodiments, this disclosure relates to conjugates comprising GM-CSF and IL-4 and uses related thereto, e.g., enhancing the immune system. Typically the GM-CSF and IL-4 are connected by a linker. In certain embodiments, the disclosure relates to isolated nucleic acids encoding these polypeptide conjugates, vectors comprising nucleic acid encoding polypeptide conjugates, and protein expression systems comprising these vectors such as infectious viral particles and host cells comprising such a nucleic acids.

The present invention relates to methods for producing immuno-stimulatory autologous dendritic cells. The present invention further relates to the use of such cells for treating patients suffering from hyper-proliferative disease such as cancer.

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).