Provided herein are methods of expanding B cells, and in particularly B10 cells capable of producing IL-10, ex vivo. The methods include incubation of harvested B cells in the presence of IL-21. Compositions comprising the ex vivo expanded B cells and methods of using the expanded B cell-containing compositions to treat diseases or conditions are also provided. Methods of assessing B10 cell function in a subject are also provided.

Provided herein are methods for the production of enhanced ICOS-stimulated Th17 cells by co-stimulation with inducible coactivator (ICOS) and an inhibitor of POK/Akt signaling and/or an inhibitor of Wnt/-catenin signaling. Further provided are methods for treatment of cancer by administration of the enhanced ICOS-stimulated Th17 cells as an adoptive T cell therapy.

It is an object of the present invention to provide a method for easily producing an antigen-specific B cell population comprising IgG-positive B cells specific to a specific antigen. The present invention provides a method for producing a B cell population, comprising culturing B cells, in which the expression of a Bach2 gene has been increased, in the presence of a means for acting on CD40 and/or a BAFF receptor.

Provided are a composition and a kit for reprogramming cancer associated fibroblasts (CAFs) into macrophages, and a method of using the same. According to a method of reprogramming CAFs according to an aspect, macrophages may be prepared with a high yield in a short period of time, and the tumor microenvironment may be suppressed and macrophages produced by reprogramming CAF may elimininate cancer cells. Therefore, the macrophages may be usefully applied as an anticancer agent or an anticancer adjuvant.

The present specification provides methods for augmenting the antigenic content, especially of tumor-associated antigens (TAA), and immunogenicity of cancer cells; methods for enhancing cross-presentation in dendritic cells, compositions comprising such manipulated cells derived from single cancer patients; and methods of using those compositions as a personal immunotherapeutic product to treat the donor patient's cancer.

In one aspect, the present invention provides, for example, an improved method for identifying an epitope on a protein, comprising the following steps: (A) contacting a major histocompatibility complex (MHC molecule)-expressing cell differentiated from a stem cell or a progenitor cell derived therefrom with a target protein; (B) isolating a complex of a peptide contained in the target protein and the MHC molecule from the MHC molecule-expressing cell; and (C) eluting the peptide from the complex and identifying the peptide.

Described are compositions of matter, protocols, and treatment means for induction of immune mediated killing in dogs suffering from cancer. The invention provides means of extracting peripheral blood from a canine patient, expanding immunocytes capable of killing cancer cells in vitro, and re-administering said immunocytes into a patient in need of therapy. In one embodiment, immunocytes expanded are T cells possessing tumor cytotoxic activity induced by stimulation of NKG2D.

The present invention concerns compositions and methods related to approaches to render ineffective Thl T cells resistant to the inhibitory cytokine milieu present in a cancer microenvironment. In particular embodiments, tumor-specific T cells are modified to employ a chimeric receptor that binds inhibitory/suppressive cytokines and converts their intracellular consequences to a Thl immunostimulaotyr/activating signal. In specific embodiments, the T cells employ a chimeric antigen receptor having exodomains for IL10, IL13 and/or IL4 fused with the signal transducing endodomains for IL2 and/or IL7

The present invention relates to the preparation and use in recipients of CAR-T cell-derived effector cells which are modified to limit their proliferation within the recipient. This is accomplished through the introduction of adducts into the nucleic acids of CAR-T cell-derived effector cells following expansion in vitro to provide expanded and activated CAR-T cell-derived effector cells that retain immunologic function, including the expression of one ore more cytokines.

Systems, compositions, and methods for the treatment of a liver disorder is disclosed. The systems, compositions, and methods include use of activated T regulatory cells for alleviating, treating, or reducing a liver disorder. The T regulatory cells may be allogeneic T regulatory cells that may be present in an amount of about 510.sup.5 to 210.sup.6 cells. The liver disorder needing treatment may be hepatitis, cirrhosis, chronic liver disease, acute liver disease, or liver failure.