Abstract: The present invention provides gene edited or gene silenced immune cells comprising an chimeric antigen receptor (CAR) such as an anti-CD2 CAR. In some embodiments, such engineered immune cells lack CD2 expression. Also, provided herein are methods of using such cells in cancer therapies.

Abstract: The invention provides a chimeric receptor comprising NKG2D, DAP10 and CD3 zeta. Also disclosed is a composition comprising this chimeric receptor and methods for making and using it to enhance the cytotoxicity and antitumor capacity of NK cells. The invention also encompansses methods for use of NKG2D-DAP10-CD3 zeta polypeptides, vectors and cells in methods for treating cancer and other proliferative disorders, as well as infectious diseases.

Abstract: The invention relates to a composition comprising engineered Natural Killer (NK) cells that express an adhesion receptor comprising an extracellular receptor domain that binds to a target cell antigen as well as a transmembrane domain to anchor the extracellular receptor domain on the surface of the NK cell. The NK cells expressing such adhesion receptor have enhanced ability to target specific cells, such as cancerous cells or those affected by an infectious disease. Several exemplified embodiments relate to NK cells expressing adhesion receptors comprising scFv that targets Her2 or PSMA cancer antigens, the NK cells exhibiting cytotoxic and/or cytolytic effects when the NK cells bind target cells.

Abstract: Current invention relates to a polynucleotide encoding activating chimeric receptors comprising engineered Natural Killer Group 2 member C (NKG2C) having enhanced affinity for HLA class I histocompatibility antigen alpha chain E (HLA-E)/peptide complex or an extracellular receptor domain of NKG2A coupled to an effector domain. It also relates to NK cells expressing such constructs and the use of these NK cells to induce cytotoxicity. It further exemplifies that the NK cells expressing polynucleotide encoding NKG2C (SIIS)/CD94/DAP12 or NKG2C/CD94/4-1 BB/CD3z showed enhanced NK cytotoxicity against cancer cells.

Abstract: The present invention relates to a method of using a receptor (e.g., chimeric antigen receptor—CAR) that activates an immune response upon binding a cancer cell ligand in conjunction with a target-binding molecule that targets a protein or molecule for removal or neutralization to generate enhanced anti-cancer immune cells. The present invention also relates to engineered immune cells having enhanced therapeutic efficacy and uses thereof.

Abstract: Transgenic T cells and vectors for making transgenic T cells are described. The vectors can include a nucleic acid encoding a membrane-bound anti-IL6 (mb-alL6) single chain variable fragment (scFv), and the transgenic T cells can express mb-alL6. The transgenic T cells are useful for suppressing proliferation of IL-6-dependent cells, reducing IL-6 concentration, or both. In one embodiment, the vector is a bicistronic construct encoding the mb-alL6 and an anti-CD19-41 BB-003? chimeric antigen receptor (CAR). In another embodiment, an anti-IL-6 scFv can be linked to a 41 BB and 003? domains to form an anti-IL-6 CAR. The transgenic T cells expressing said constructs can reduce the linker risk of cytokine release syndrome (CRS) in cancer patients being treated with CAR T cell or for the treatment of autoimmune diseases and inflammatory diseases in which cytokines are involved in pathogenesis.

Abstract: The present invention provides, in certain aspects, a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15), and methods for producing such cells. The invention further provides methods of using a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15) to treat cancer in a subject or to enhance expansion and/or survival of NK cells.

Abstract: The invention provides a chimeric receptor comprising NKG2D, DAP10 and CD3 zeta. Also disclosed is a composition comprising this chimeric receptor and methods for making and using it to enhance the cytotoxicity and antitumor capacity of NK cells. The invention also encompasses methods for use of NKG2D-DAP10-CD3 zeta polypeptides, vectors and cells in methods for treating cancer and other proliferative disorders, as well as infectious diseases.

Abstract: The invention provides a chimeric receptor comprising NKG2D, DAP10 and CD3 zeta. Also disclosed is a composition comprising this chimeric receptor and methods for making and using it to enhance the cytotoxicity and antitumor capacity of NK cells. The invention also encompasses methods for use of NKG2D-DAP10-CD3 zeta polypeptides, vectors and cells in methods for treating cancer and other proliferative disorders, as well as infectious diseases.

Abstract: Methods for detecting the presence of proteins in a subject are described. The proteins detected can be indicative of acute myeloid leukemia (AML). The proteins can be particularly useful for monitoring minimal residual disease (MRD) in AML.

Abstract: The invention provides a chimeric receptor comprising NKG2D, DAP10 and CD3 zeta. Also disclosed is a composition comprising this chimeric receptor and methods for making and using it to enhance the cytotoxicity and antitumor capacity of NK cells. The invention also encompasses methods for use of NKG2D-DAP10-CD3 zeta polypeptides, vectors and cells in methods for treating cancer and other proliferative disorders, as well as infectious diseases.

Abstract: The invention provides a chimeric receptor comprising NKG2D, DAP10 and CD3 zeta. Also disclosed is a composition comprising this chimeric receptor and methods for making and using it to enhance the cytotoxicity and antitumor capacity of NK cells. The invention also encompasses methods for use of NKG2D-DAP10-CD3 zeta polypeptides, vectors and cells in methods for treating cancer and other proliferative disorders, as well as infectious diseases.

Abstract: The present invention provides, in certain aspects, a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15), and methods for producing such cells. The invention further provides methods of using a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15) to treat cancer in a subject or to enhance expansion and/or survival of NK cells.

Abstract: The present invention relates to a method of using a receptor (e.g., chimeric antigen receptor—CAR) that activates an immune response upon binding a cancer cell ligand in conjunction with a target-binding molecule that targets a protein or molecule CI for removal or neutralization to generate enhanced anti-cancer immune cells. The present invention also relates to engineered immune cells having enhanced therapeutic efficacy and uses thereof.

Abstract: A modified effector cell includes a non-reversibly produced vector-encoded anti-GD2-BB-? chimeric receptor for use in disialoganglioside GD2-expressing neoplasia, which is inserted in the cell, to obtain an effector cell that stably produces the anti-GD2-BB-? chimeric receptor, the chimeric receptor having two distinct mutually fused portions, i.e. an intra-cytoplasmic portion and an extra-cytoplasmic portion.

Abstract: Several embodiments disclosed herein relate to the compositions comprising engineered Natural Killer (NK) cells that express a chimeric receptor, the chimeric receptor imparting to the NK cells an enhanced ability to target specific cells, such as cancerous cells or those affected by an infectious disease. Several embodiments relate to NK cells that target cells expressing natural ligands of NKG2D, where the NK cells comprise transmembrane and/or signaling domains that lead to cytotoxic and/or cytolytic effects when the NK cells bind a target cell. Uses of NK cell compositions to treat diseases are also provided for in several embodiments.

Abstract: The present invention provides compositions comprising an anti-CD7 chimeric activating receptor (CAR) and an anti-CD7 protein expression blocker, and methods of using such compositions in cancer therapy.

Abstract: The invention provides a chimeric receptor comprising NKG2D, DAP10 and CD3 zeta. Also disclosed is a composition comprising this chimeric receptor and methods for making and using it to enhance the cytotoxicity and antitumor capacity of NK cells. The invention also encompansses methods for use of NKG2D-DAP10-CD3 zeta polypeptides, vectors and cells in methods for treating cancer and other proliferative disorders, as well as infectious diseases.

Abstract: The present invention relates to genetically engineered cell populations derived from an immortalised/cancerous cell that do not express MHC class I molecules but that are modified to express membrane-bound IL-15, membrane-bound 4-1 BBL ligand, and at least one other membrane bound molecule, such as an interleukin or anti-CD3 antibody. The co-culture of said cells with a population of immune cells results in the activation and expansion of at least one subpopulation of immune cells. Expanded populations of NK cells derived from the co-culture of a mixed cell culture with the stimulatory cell lines may be used in methods of treating cancer or an infectious disease. In a separate embodiment, a plurality of nucleic acids for use in preparing the engineered cell population are provided.

Abstract: The present invention provides, in certain aspects, a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15), and methods for producing such cells. The invention further provides methods of using a natural killer (NK) cell that expresses all or a functional portion of interleukin-15 (IL-15) to treat cancer in a subject or to enhance expansion and/or survival of NK cells.