The present invention includes compositions and methods for expanding T cells utilizing artificial antigen presenting cells (aAPCs) comprising a chimeric receptor molecule specific for CD3.

Provided is application of chimeric antigen receptor (CAR)-modified T (CART) cells in preparing drugs for cancer treatment, the CART cells contain an artificially-introduced costimulatory signal transduction domain, and the CART cell does not contain an artificially-introduced first signal transduction domain.

The present invention provides a system for providing a T cell product, including a T cell master cell bank and/or a T cell working cell bank.

Provided are methods for producing population of cells enriched for cells exhibiting sinoatrial node like characteristics. The cells can be produced from human pluripotent cells. Also provided are methods for using the SAN-like cells for identifying agents that can mitigate drug-induced cardiac toxicity. Also provided is a method for mitigating drug induced cardiotoxicity comprising administering to a subject an effective amount of physcion or a derivative thereof.

An object of the present invention is to provide clinically applicable aAVC-NY-ESO-1 cells stably expressing NY-ESO-1 in order to use aAVC-NY-ESO-1 cells in treating patients having a NY-ESO-1-expressing cancer. The present invention provides, for example, a human-derived cell comprising a polynucleotide encoding CD1d and a polynucleotide encoding NY-ESO-1 or a fragment thereof, wherein the polynucleotide encoding NY-ESO-1 or a fragment thereof is operably linked to an inducible promoter.

Embodiments described herein relate to compositions including genetically modified CAR cells and uses thereof for treating cancer. Some embodiments of the present disclosure relate to compositions and methods for T cell response enhancement and/or CAR cell preparation. For example, a method may include obtaining cells comprising a CAR and culturing the cells in the presence of an agent that is recognized by the extracellular domain of the CAR.

The present invention relates to an adoptive T cell therapy using cells generated by genetically or biochemically reprogramming T cells to produce T memory stem cells (Tscm) that persist longer in vivo and are superior anti-tumor effector cells.

The present invention provides a chimeric antigen receptor and natural killer cells expressing the same, and particularly, a chimeric antigen receptor (CAR) which includes an intracellular signaling domain including the whole or a portion of an OX40 ligand (CD252), thereby having excellent effects of increasing anticancer activity of immune cells, and immune cells expressing the same.

The present invention contemplates that complement receptor 1 and 2 may play a role in the induction of regulatory B cells under inflammatory conditions that accompany immune-mediated diseases. For example, long noncoding RNA may regulation transcription of the complement receptor I gene, thereby resulting in an induction and/or suppression of regulatory B cells. Such long noncoding RNA in mature B cells may be specifically targeted to modify complement receptor 1 levels and induce or suppress the generation of antigen-specific regulatory B cells, thereby modifying the course of immune mediated diseases including, but not limited to, autoimmune disease, cancer, and infection.

Provided herein are carrier cells and virus combinations and methods for treatment of cancers. Also provided are modified carrier cells for such treatment, and methods of selecting carrier cells that are matched to subjects for such treatment.