The presently disclosed subject matter provides for methods and compositions for treating a neoplasia (e.g., multiple myeloma). It relates to chimeric antigen receptors (CARs) that specifically target Fc Receptor-like 5 (FcRL5), e.g., domain 9 of FcRL5, and immunoresponsive cells comprising such CARs. The presently disclosed FcRL5-targeted CARs have enhanced immune-activating properties, including anti-tumor activity.

Combination therapies that include (i) an immune cell that expresses a chimeric antigen receptor (CAR) or similar molecule and (ii) a compound that preserves or potentiates the in vivo actions of tumor necrosis factor alpha (TNFα) against cancer cells are described. The combination therapies result in the killing of antigen-negative cells in the vicinity of immunotherapy targeted-antigen-positive cells reducing the survivability of escape variants and providing other benefits.

Combination therapies that include (i) an immune cell that expresses a chimeric antigen receptor (CAR) or similar molecule and (ii) a compound that preserves or potentiates the in vivo actions of tumor necrosis factor alpha (TNFα) against cancer cells are described. The combination therapies result in the killing of antigen-negative cells in the vicinity of immunotherapy targeted-antigen-positive cells reducing the survivability of escape variants and providing other benefits.

Chimeric antigen receptors (CARs) with binding domains derived from a novel suite of human CD33-binding antibodies are described. The CARs include optimized short and intermediate spacer regions. The current disclosure also provides methods of cell expansion/activation processes utilizing IL-2, IL-7, IL-15, and/or IL-21 that improve cellular proliferation and cell lysis of the CARs as described.

Provided are chimeric antigen receptors (CARs) comprising an NGK2D ecto domain. Provided are compositions, cells and cell therapies comprising the same. Further provided are methods of treatment.

Embodiments of the methods and compositions provided herein relate to anti-CD171 chimeric antigen receptors (CARs). Some embodiments relate to anti-CD171 CARs having long extracellular polypeptide spacers. Some embodiments relate to cells containing such anti-CD171 CARs having increased persistence and activity at a lower dose in a subject compared to cells containing anti-CD171 CARs comprising shorter polypeptide spacers.

Provided herein are CD70 targeting chimeric antigen receptors and engineered immune cells (e.g., T cells) comprising such CAR. Method of treating a cancer expressing CD70 using such engineered immune cells are also provided. In some embodiments, the method of treating cancer further comprising using an agent that enhances CD70 expression in the cancer (e.g., azacitidine) in combination with the engineered immune cells comprising the CD70-targeting CAR.

Provided herein are CD70-binding proteins comprising a CD70-binding domain and a transmembrane domain, engineered immune cells comprising the CD70-binding proteins, and methods of making and using the same. Also provided herein are engineered immune cells e.g. CAR (chimeric antigen receptor) T cells for administration to patients to treat cancer (e.g., solid tumors and hematologic tumors) and other unwanted conditions. The cells are engineered to functionally express a first antigen binding molecule e.g. a CD70 CAR and a second antigen binding molecule e.g. a second CAR that binds a target molecule characteristic of the cancer or other disease or unwanted condition. The cells may be further engineered to reduce the functional expression level of one or more of TRAC, CD52 and CD70. Also provided are methods of making and using the engineered cells, compositions and kits comprising them, and methods of treating by administering them.

Embodiments of the disclosure encompass methods and compositions for producing engineered B cells. The disclosure concerns large-scale processes for producing B cells that are engineered to have disruption of expression of one or more genes using CRISPR and also express at least one heterologous antigen receptor. Specific embodiments include particular parameters for the process.

The present disclosure provides multispecific binding molecules that specifically bind to BCMA, a component of a human T-cell receptor complex and either CD2 or a tumor associated antigen, conjugates comprising the multispecific binding molecules, and pharmaceutical compositions comprising the multispecific binding molecules and the conjugates The disclosure further provides methods of using the multispecific binding molecules to treat disease and disorders associated with expression of BCMA. The disclosure yet further provides recombinant host cells engineered to express the multispecific binding molecules and methods of producing the multispecific binding molecules by culturing the host cells under conditions in which the multispecific binding molecules are expressed.