Provided are antibodies, fragments thereof, chimeric antigen receptors (CARs) and T cell receptors (TCRs) comprising one or more of the anti-PMCA antigen binding domains disclosed herein. SynNotch receptors that comprise an anti-PSCA binding domain Provided are polynucleotides encoding antibodies, fragments thereof, CARs, T cell receptors (TCR) and SynNotch receptors. Provided are compositions, cells and cell therapies comprising the same. Further provided are methods of treatment.

Compositions and methods are disclosed herein for producing one or more immunoglobulins in an isolated B lymphocyte cell line. An isolated cell line includes an isolated B lymphocyte cell line capable of expressing at least one exogenously incorporated membrane immunoglobulin reactive to a first antigen and at least one endogenous secreted immunoglobulin reactive to a second antigen.

A composition for treating cancer, including synergistic amounts of a primary cell-derived biologic having the cytokines IL-1, IL-2, IL-6, IL-8, TNF-, and IFN-, and a cancer vaccine having at least one antigen. A composition comprising synergistic amounts of the primary cell-derived biologic in combination with at least one adjuvant. A method of treating cancer by administering the composition. A method of reversing immune suppression and gaining immunity to cancer. A method of producing an immune response to an exogenous antigen. A method of enhancing an immune response in a patient by administering the primary cell-derived biologic in combination with at least one adjuvant, and enhancing the immune response of the patient by a synergistic interaction of the primary cell-derived biologic and the adjuvant. A method of increasing function of an immune system.

Described herein is a reliable method for preparing a potent vaccine useful for immunotherapy comprising the step of cryopreserving a population of cells undergoing immunogenic cell death, and using such cells to activate dendritic cells for use in immunotherapy. In a specific embodiment, the method comprises cryopreserving cancer cells undergoing cell death, which can be used to prepare a pharmaceutical composition for immunotherapy against cancer.

A composition for treating cancer, including synergistic amounts of a primary cell-derived biologic having the cytokines IL-1, IL-2, IL-6, IL-8, TNF-, and IFN-, and a cancer vaccine having at least one antigen. A composition comprising synergistic amounts of the primary cell-derived biologic in combination with at least one adjuvant. A method of treating cancer by administering the composition. A method of reversing immune suppression and gaining immunity to cancer. A method of producing an immune response to an exogenous antigen. A method of enhancing an immune response in a patient by administering the primary cell-derived biologic in combination with at least one adjuvant, and enhancing the immune response of the patient by a synergistic interaction of the primary cell-derived biologic and the adjuvant. A method of increasing function of an immune system.

Aspects of the present disclosure relate to methods and compositions related to related to the preparation of immune cells, including engineered T cells having T cell receptors that target human prostatic acid phosphatase (PAP) and are useful in prostate cancer therapy.

The compositions and methods described herein are directed to treating solid tumor using CAR T therapy. The compositions include CAR comprising an extracellular domain that binds a siglec protein or a receptor that binds the peptide hormone kisspeptin.

Therapeutic and diagnostic methods are provided, which methods relate to the induction of expression of calreticulin on phagocytic cells. Specifically, the methods relate to macrophage-mediated programmed cell removal (PrCR), the methods comprising increasing PrCR by contacting a phagocytic cell with a toll-like receptor (TLR) agonist; or down-regulating PrCR by contacting a phagocytic cell with an inhibitor of Bruton's tyrosine kinase (BTK). In some embodiments, an activator of TLR signaling or a BTK agonist is provided in combination with CD47 blockade.

In various aspects, the present disclosure provides polynucleotides encoding a fusion protein, as well as vectors, cells, and compositions comprising the same. In embodiments, the fusion protein includes an insulin signal peptide and an MDA-7/IL-24 protein. Methods of using the polynucleotides, vectors, cells, and compositions, such as in the treatment or prevention of cancer, are also provided.

The present disclosure provides compositions and methods that rapidly and selectively modify cells of the immune system to achieve therapeutic objectives. The methods can be practiced in vivo and any cell type that expresses a known marker can be targeted for a therapeutic objective.