Described herein are immune cells comprising: a T-cell receptor (TCR) and a chimeric stimulating receptor (CSR) that comprises (i) a ligand-binding module that is capable of binding or interacting with a target ligand; (ii) a transmembrane domain; and (iii) a CD30 costimulatory domain, in which the CSR in the immune cells lacks a functional primary signaling domain. Also provided herein are methods of using the same or components thereof (e.g., the CSR) for therapeutic treatment of cancers (e.g., solid tumor cancers).

The present disclosure provides methods of producing a modified immune cell responsive to orthogonal cytokine signaling and a modified immune cell produced by said method. The present disclosure further provides a modified immune cell responsive to orthogonal cytokine signaling and methods for treating cancer comprising the modified immune cell.

Disclosed are pharmaceutical compositions for inducing an immune response against tumor cells comprising tumor cells which are made apoptotic by treatment with high hydrostatic pressure and dendritic cells, and methods for producing such compositions.

Compositions and methods are disclosed herein for producing one or more immunoglobulins in an isolated cytotoxic 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 capable of binding to a first antigen and at least one endogenous secreted immunoglobulin capable of binding to a second antigen, and further capable of expressing at least one exogenously incorporated recombinant B cell receptor that signals for expression of cytotoxic effector molecules.

Disclosed are off-the-shelf immune effector cells that are engineered to express anti-CD3 antibodies disclosed herein that are configured to autoactivate the immune effector cells, thereby decreasing expression of T cell receptors (e.g. TCR??) that could result in GVHD. Also disclosed are methods for modifying donor immune effector cells to make them suitable for off-the-shelf treatment of allogeneic subjects. These methods involve engineering the cells to express an anti-CD3 antibody configured to activate the cells. In some embodiments, the antibody is a bi-specific antibody that binds the CD3 complex on the immune effector cells. In other embodiments, the antibody is a membrane bound anti-CD3 antibody that autoactivates the immune effector cell.

There is provided a single variable domain T-cell receptor (svd-TCR) comprising a first TCR variable domain, the first TCR variable domain specifically binding to an epitope, that is not a superantigen, in the absence of a second TCR variable domain. Also provided are compositions and cells comprising the svd-TCR as well as methods of identifying the svd-TCR.

Disclosed are pharmaceutical compositions for inducing an immune response against tumor cells comprising tumor cells which are made apoptotic by treatment with high hydrostatic pressure and dendritic cells, and methods for producing such compositions.

Compositions and methods are disclosed herein for producing one or more immunoglobulins in an isolated cytotoxic 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, and further capable of expressing at least one exogenously incorporated recombinant B cell receptor that signals for expression of cytotoxic effector molecules.

Compositions and methods are disclosed herein for producing one or more immunoglobulins in an isolated cytotoxic 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, and further capable of expressing at least one exogenously incorporated recombinant B cell receptor that signals for expression of cytotoxic effector molecules.

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.