Disclosed herein are CAR-T cells engineered to express mutant PGC-1α, wildtype NT-PGC-1α, or mutant NT-PGC-1α to enhance or prevent degradation of metabolic fitness. Also disclosed herein is a method for enhancing metabolic fitness of a CAR-T cell by transducing the CAR-T cell with a vector encoding a mutant PGC-1α, wildtype NT-PGC-1α, or mutant NT-PGC-1α. Also disclosed is a method for producing CAR-T cells that involves transducing activated T cells with a viral vector encoding a mutant PGC-1α, wildtype NT-PGC-1α, or mutant NT-PGC-1α polypeptide.

Provided for herein in several embodiments are immune cell-based compositions comprising BCMA-directed chimeric antigen receptors (CAR). In several embodiments, the immune-cell based compositions also target an additional tumor marker and/or an additional epitope of BCMA. In several embodiments, the BCMA-directed CAR is expressed in a Natural Killer cell. In several embodiments, combinations of BCMA-CAR-expressing NK cells are administered in conjunction with, for example CAR-expressing NK cells and/or CAR-expressing T cells that are directed to an additional cancer marker and/or an additional epitope of BCMA. Also provided for herein are methods and uses of the chimeric antigen receptors in immunotherapy.

Disclosed are a natural killer (NK) cell expressing an anti-cotinine chimeric antigen receptor (CAR) specifically binding to cotinine, and a cell therapeutic agent containing the NK cell. The CAR-expressing NK cell which specifically binds cotinine, can effectively move to tumor tissue, regardless of the kind of cancer, depending on the binding substance bound to cotinine. Therefore, the natural killer cell can be usefully employed as a gene therapy exhibiting a highly efficient anticancer effect.

Tandem gene pairs are described in which the GC3 Content of one gene changes its level of expression, and changes the level of expression of the tandem gene. This gene control is called Mercury and can be used to control the expression level of a gene of interest. Mercury is used herein to reduce tonic signaling from chimeric antigen receptors by reducing the expression of a chimeric antigen receptor.

The present disclosure provides a high-throughput screening system and method for identification of novel drugs and drug targets. The method enables large-scale analysis of interactions between allogeneic pairs of target cells and immune cells by using an immune-bridge protein, library of guide RNA, and/or 3D tumor model.

Combination therapy of a cancer with a multi-specific binding protein that bind a tumor associated antigen, the NKG2D receptor, and CD16, in combination with a second anti-cancer agent are described. Also described are pharmaceutical compositions of the multi-specific binding protein, and therapeutic methods useful for the treatment of cancer in combination with a second anti-cancer agent.

A vector comprising a first polynucleotide encoding a FOXP3 polypeptide and a second polynucleotide encoding a chimeric antigen receptor (CAR), wherein the CAR comprises an antigen recognition domain which specifically binds to a human leukocyte antigen (HLA), wherein the first polynucleotide and the second polynucleotide are operably linked to the same promoter, and wherein the first polynucleotide is upstream of the second polynucleotide.

The invention relates to a new potency assay for characterizing the quality and activity of an immune cell expressing a chimeric antigen receptor, the kit to carry out this assay and uses thereof.

Disclosed herein are designer extracellular vesicles (EVs) functionalized with glutamate receptors (e.g., mGluR4 and mGluR8), which can selectively target injured regions of the CNS experiencing excitotoxicity. mGluR4 and mGluR8-decorated EVs preferentially anchor into injured areas of the CNS with a marked increase in extracellular glutamate associated with profuse neuroand excitotoxicity. Therefore, glutamate receptor decoration can lead to enhanced homing in glutamate-rich areas of the CNS.

The present invention relates to a novel chimeric antigen receptor and to a pharmaceutical composition for preventing or treating containing the same.