Nucleic acid constructs encoding a chimeric antigen receptor (CAR) and a truncated human epidermal growth factor receptor (huEGFRt) are described. The encoded CARs include a tumor antigen-specific monoclonal antibody, such as a glypican-3 (GPC3)-specific, a GPC2-specific or a mesothelin-specific monoclonal antibody, fused to a CD8α hinge region, a CD8α transmembrane region, a 4-1BB co-stimulatory domain and a CD3ζ signaling domain. Isolated host cells, such as isolated T cells that co-express the disclosed CARs and huEGFRt are also described. T cells transduced with the disclosed CAR constructs can be used for cancer immunotherapy.

Hematopoeitic stem/progenitor cells (HSPC) and/or non-T effector cells are modified to express an extracellular component including a tag cassette. The tag cassette can be used to activate, promote proliferation of, detect, enrich, isolate, track, deplete and/or eliminate modified cells. The cells can also be modified to express a binding domain.

Provided are genetically engineered induced pluripotent stem cells (iPSCs) and derivative cells thereof expressing a chimeric antigen receptor (CAR) and methods of using the same. Also provided are compositions, polypeptides, vectors, and methods of manufacturing.

This invention describes a novel CRISPR/Cas9 target identification platform permitting the discovery of novel genes and pathways involved in the ability of T cells and NK cells to react against and generate an anti-tumor response.

Provided herein are immunomodulatory proteins comprising variant PD-L2 and nucleic acids encoding such proteins. The immunomodulatory proteins provide therapeutic utility for a variety of immunological and oncological conditions. Compositions and methods for making and using such proteins are provided.

The present invention relates, in part, to, chimeric proteins which include the extracellular domain of colony stimulating factor 1 receptor (CSF1R) and their use in the treatment of diseases, such as immunotherapies for cancer and/or an inflammatory disease.

Microglia/monocytes exist within a ‘niche’ which limits the total number of microglia/monocytes/macrophages that reside within a mammalian central nervous system (CNS). Therefore, methods are needed that can help therapeutically modify microglia, monocytes, and macrophages or the cells that give rise to them to compete with endogenous microglia and partially or completely occupy the CNS niche. The present disclosure features therapeutic microglia, monocytes, or macrophages that have a selective advantage in comparison to endogenous brain resident microglia in their response to CSF1R inhibitors. Specifically, therapeutic cells developed in the present disclosure do not die at a given dose of CSF1R inhibitor that is sufficient to kill endogenous microglia. The therapeutic cells described herein can be used to treat neurological diseases.

Chimeric antigen receptors (CARs) and CAR-expressing T cells are provided that can specifically target cells that express an elevated level of a target antigen. Likewise, methods for specifically targeting cells that express elevated levels of antigen (e.g., cancer cells) with CAR T-cell therapies are provided.

Nucleic acid constructs encoding a chimeric antigen receptor (CAR) and a truncated human epidermal growth factor receptor (huEGFRt) are described. The encoded CARs include a tumor antigen-specific monoclonal antibody, such as a glypican-3 (GPC3)-specific, a GPC2-specific or a mesothelin-specific monoclonal antibody, fused to a CD8α hinge region, a CD8α transmembrane region, a 4-1BB co-stimulatory domain and a CD3ζ signaling domain. Isolated host cells, such as isolated T cells that co-express the disclosed CARs and huEGFRt are also described. T cells transduced with the disclosed CAR constructs can be used for cancer immunotherapy.

A soluble dimeric immunoadhesin includes a dimerized first polypeptide chain and a dimerized second polypeptide chain. The first polypeptide chain has a general formula of Z1-Z2, and the second polypeptide chain has a general formula of Y1-Y2. Z1 is (i) an extracellular domain of a first cell surface receptor or a functional variant or fragment thereof, or (ii) a first cytokine or a functional variant or fragment thereof; Z2 is a dimerization domain of an immunoglobulin constant region or a functional variant or fragment thereof. Y1 is an extracellular domain of a second cell surface receptor or a functional variant or fragment thereof, or (ii) a second cytokine or a functional variant or fragment thereof. Y2 is a dimerization domain of an immunoglobulin constant region or a functional variant or fragment thereof. A dimeric protein can be used for the treatment and prevention of infertility-related diseases.