Provided for herein are compositions and methods that can be used to transduce cells and deliver genetic information that can then be expressed in the transduced cell. Also provided herein are methods of treating a disease in a subject using the compositions and methods provided.

Provided are a product and a method for treating thrombocytopenia. The product and the method can fundamentally solve the problem of thrombocytopenia from the perspective of an autoimmune mechanism.

The invention is directed to modified T cells, methods of making and using isolated, modified T cells, and methods of using these isolated, modified T cells to address diseases and disorders. In one embodiment, this invention broadly relates to TCR-deficient T cells, isolated populations thereof, and compositions comprising the same. In another embodiment of the invention, these TCR-deficient T cells are designed to express a functional non-TCR receptor. The invention also pertains to methods of making said TCR-deficient T cells, and methods of reducing or ameliorating, or preventing or treating, diseases and disorders using said TCR-deficient T cells, populations thereof, or compositions comprising the same.

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.

An isolated immune regulatory cell having an exogenous cell death-inducing moiety attached to a surface thereof is disclosed herein. Additionally, a molecule comprising a cell death-inducing moiety heterologously attached to an immune regulatory cell-specific binding moiety is disclosed herein. Methods of generating and using same as well as pharmaceutical compositions comprising same are also disclosed.

An immunogen includes an isolated peptide of 800 amino acid residues or fewer having the amino sequence ILSAFSVYV (SEQ ID NO:1) with four or fewer amino acid substitutions, a superagonist variant of SEQ ID NO:1, or an amino acid sequence having the formula: (I/K/T/V/M)-L-(S/L)-(A/E/N/D/Q)-(F/V)-(S/M/V/I)-(V/D/R/G/H)-Y-(V/I/L) (SEQ ID NO:13). The immunogens can be used in compositions and in the treatment of disorders.

The present invention relates to TSCM cells and uses thereof. TSCM cells can be used help identify and treat patients who are likely to experience particular treatment outcomes. In other embodiments TSCM cells are generated in vitro and used for adoptive transfer therapy.

This present disclosure relates generally to the production of polypeptides comprised of modified 1-2 domains of NKG2D ligands which bind specifically to a non-natural ectodomain of a non-natural NKG2D receptor and wherein heterologous molecules are attached to the modified 1-2 domains of NKG2D ligands. The present disclosure further relates to modified 1-2 domains of NKG2D ligands attached to heterologous molecules including polypeptides, and in some embodiments, antibodies or fragments of antibodies. The present disclosure also relates to modified forms of the NKG2D receptor engineered to provide a combination of enhanced and diminished binding to non-natural and natural versions of NKG2D ligands, respectively.

According to various aspects of this disclosure, the present disclosure relates to an antibody or antigen-binding fragment thereof capable of binding to CD94, a chimeric antigen receptor capable of binding to CD94, and engineered T cells containing chimeric antigen receptors capable of binding to CD94.

The presently disclosed subject matter provides methods and compositions for treating myeloid disorders (e.g., acute myeloid leukemia (AML)). It relates to immunoresponsive cells bearing antigen recognizing receptors (e.g., chimeric antigen receptors (CARs)) targeting AML-specific antigens.