The present invention is based, in part, on the identification of methods of modulating PD-1 expression and/or activity in regulatory T cells (Tregs) to thereby regulate effector immune responses in effector T cells (Teffs).

The invention provides compositions and methods for treating diseases associated with expression of a cancer associated antigen as described herein. The invention also relates to chimeric antigen receptor (CAR) specific to a cancer associated antigen as described herein, vectors encoding the same, and recombinant T cells comprising the CARs of the present invention. The invention also includes methods of administering a genetically modified T cell expressing a CAR that comprises an antigen binding domain that binds to a cancer associated antigen as described herein.

Chimeric antigen receptors containing CD33 antigen binding domains are disclosed. Nucleic acids, recombinant expression vectors, host cells, antigen binding fragments, and pharmaceutical compositions, relating to the chimeric antigen receptors are also disclosed. Methods of treating or preventing cancer in a subject, and methods of making chimeric antigen receptor T cells are also disclosed.

Disclosed herein are cells that are immune cells or precursor cells thereof, which cells recombinantly express a chimeric antigen receptor (CAR), and a dominant negative form of an inhibitor of a cell-mediated immune response of the immune cell, wherein the CAR binds to a cancer antigen. Also disclosed herein are T cells that recognize and are sensitized to a cancer antigen, which T cells recombinantly express a dominant negative form of an inhibitor of a T cell-mediated immune response. Additionally provided are methods of using such cells to treat cancer in a subject in need thereof.

Provided are single-domain antibodies targeting CLL1 and constructs thereof, including chimeric receptors, immune effector cell engagers and immunoconjugates. Further provided are engineered immune effector cells (such as T cells) comprising an anti-CLL1 chimeric receptor and optionally a second chimeric receptor targeting a second antigen or epitope. Pharmaceutical compositions, kits and methods of treating cancer are also provided.

Compositions, systems, and methods for reducing viability of cancer cells and treating cancer, as well as preventing an increase of volume of a tumor present in a body of a living subject, are disclosed. The systems and methods involve application of an alternating field concurrently with administration of at least one composition comprising at least one chimeric antigen receptor (CAR)-immune cell.

Some embodiments of the methods and compositions provided herein include methods and/or systems for increasing an activity of a cell comprising a chimeric antigen receptor (CAR), comprising use of a first nucleic acid encoding a transcription response element (TRE); and a second nucleic acid encoding a CAR, wherein the activity of the cell is increased compared to a cell lacking the first nucleic acid. In some embodiments, the increased activity of the cell is selected from: (i) survival of a subject administered the cell, wherein the subject comprises a target cell comprising an antigen, wherein the CAR is capable of specifically binding to the antigen; (ii) killing of a target cell comprising an antigen, wherein the CAR is capable of specifically binding to the antigen; and (iii) proliferation of the cell in the presence of a target cell comprising an antigen, wherein the CAR is capable of specifically binding to the antigen.

Provided herein are anti-CD72 nanobodies and methods of using such nanobodies for diagnostic and therapeutic purposes.

Embodiments of the present disclosure relate to compositions and methods of enhancing anti-tumor activities of modified cells, the method comprising: administering an effective amount of the modified cells to a subject having a solid tumor; and administering an effective amount of an agent to the subject, the agent comprising rapamycin, wherein the modified cells inhibit growth of the solid tumor in the subject, and wherein the anti-tumor activities in the subject are greater than those in a subject that is administered with an effective amount of modified cells but without the agent.

Disclosed is an antibody that specifically binds to BCMA. The antibody comprises a heavy chain variable domain VH, a light chain variable domain VL, and a chimeric antigen receptor that contains the sequence thereof. Further disclosed are the amino acid sequence, a vector, a host cell, and a composition of the antibody or the chimeric antigen receptor of the present invention. Also disclosed is a use of the antibody or the chimeric antigen receptor in the preparation of a drug for the prevention or treatment of diseases.