Disclosed herein are chimeric antigen receptors (CARs) that include (a) an extracellular scFv comprising a light chain variable domain (V.sub.L) a heavy chain variable domain (V.sub.H), wherein the scFv specifically binds to an antigen of interest; (b) a CD8 hinge domain and transmembrane domain; and (c) a cytoplasmic domain comprising (i) a TIM-3 cytoplasmic domain and an intracellular signaling domain, wherein (a)-(c) are in N-terminal to C-terminal order. Also disclosed are nucleic acid molecules encoding these CARs, host cells transformed with these nucleic acids, and the use of these compositions for treating a subject, such as a subject with a tumor.

Provided are methods and compositions for obtaining functionally enhanced derivative effector cells obtained from the differentiation of genomically engineered iPSCs. The derivative cells provided herein have stable and functional genome editing that delivers improved or enhanced therapeutic effects. Also provided are therapeutic compositions and the use thereof comprising the functionally enhanced derivative effector cells alone, or with antibodies or checkpoint inhibitors in combination therapies.

The technology described herein is directed to Natural Killer (NK) cell CAR polypeptides comprising intracellular signaling domains, intracellular costimulatory domains, and/or transmembrane domains from NK-associated polypeptides. In various aspects, described herein are polynucleotides, vectors, or cells expressing said NK CAR polypeptides, and pharmaceutical compositions comprising said NK CAR polypeptides, polynucleotides, vectors, or cells. Also described herein are methods of using said NK CAR polypeptides, for example to treat various diseases and disorders, such as cancer or infectious diseases.

An engineered immune receptor (e.g., a chimeric antigen receptor (CAR) or chimeric costimulatory receptor (CCR)) that contains one or more short linear motifs that bind to other intracellular signaling proteins are provided, as well as nucleic acids encoding the same, cells that contain the same and methods of use. Examples of such motifs include a PLC?1-binding motifs and TRAF binding motifs, but other motifs may be used. These motifs are thought to recruit other proteins to the engineered immune receptor, thereby altering cellular responses.

Disclosed herein are fibroblast activation protein (FAP)-specific binding polypeptides. These binding polypeptides may be incorporated into chimeric antigen receptors (CARs). Also disclosed herein are methods of using these binding polypeptides and/or CARs for the treatment of, for example, a cancer.

The present invention provides a chimeric antigen receptor (CAR) system comprising; (i) a receptor component comprising a antigen binding domain and a first binding domain; and (ii) a signalling component comprising a signalling domain and a second binding domain which binds the single domain binder of the first binding domain of the receptor component wherein either the first or second binding domains comprise a single domain binder, and wherein, binding of the first and second binding domains is disrupted by the presence of an agent, such that in the absence of the agent, the receptor component and the signalling component heterodimerize and binding of the antigen binding domain to antigen results in signalling through the signalling domain; whereas in the presence of the agent, the receptor component and the signalling component do not heterodimerize and binding of the antigen binding domain to antigen does not result in signalling through the signalling domain.

This disclosure is directed to novel CD133-binding agents. The disclosure is also directed to uses of novel CD133-binding agents for detecting CD133-expressing cells and/or quantitating levels of cellular CD133 expression, for targeting CD133-expressing cells, for decreasing levels of CD133 in CD133-expressing cells and for treating or preventing cancer.

Disclosed herein are methods of administering an agent targeting a lineage-specific cell-surface antigen and a population of hematopoietic cells that are deficient in the lineage-specific cell-surface antigen for immunotherapy of hematological malignancies.

Materials and methods for producing genome-edited cells engineered to express a chimeric antigen receptor (CAR) construct on the cell surface, and materials and methods for genome editing to modulate the expression, function, or activity of one or more immuno-oncology related genes in a cell, and materials and methods for treating a patient using the genome-edited engineered cells.

Materials and methods for producing genome-edited cells engineered to express a chimeric antigen receptor (CAR) construct on the cell surface, and materials and methods for genome editing to modulate the expression, function, or activity of one or more immuno-oncology related genes in a cell, and materials and methods for treating a patient using the genome-edited engineered cells.