The invention is directed to a bispecific chimeric antigen receptor, comprising: (a) at least two antigen-specific targeting regions; (b) an extracellular spacer domain; (c) a transmembrane domain; (d) at least one co-stimulatory domain; and (e) an intracellular signaling domain, wherein each antigen-specific targeting region comprises an antigen-specific single chain Fv (scFv) fragment, and binds a different antigen, and wherein the bispecific chimeric antigen receptor is co-expressed with a therapeutic control. The invention also provides methods and uses of the bispecific chimeric antigen receptors.

The invention provides chimeric antigen receptors (CARs) comprising an antigen binding domain of human antibody 139, an extracellular hinge domain, a transmembrane domain, and an intracellular domain T cell receptor signaling domain. Nucleic acids, recombinant expression vectors, host cells, populations of cells, antibodies, or antigen binding portions thereof, and pharmaceutical compositions relating to the CARs are disclosed. Methods of detecting the presence of cancer in a host and methods of treating or preventing cancer in a host are also disclosed.

Disclosed herein are methods and compositions dock and lock (DNL) complexes comprising an AD moiety selected from an AKAP protein and a DDD moiety selected from a protein kinase A regulatory subunit. Also disclosed are fusion proteins comprising an AD moiety or DDD moiety attached to an effector moiety. The DDD moieties form dimers that bind to the AD moiety to form the DNL complexes. The effector moieties may be selected from a wide range of known effector moieties that produce one or more physiological effects, including but not limited to cell death. The DNL complexes may further comprise one or more diagnostic and/or therapeutic agents. The DNL complexes are of use for treating and/or diagnosing a variety of diseases or conditions.

The present disclosure is directed, in some embodiments, to methods and compositions of comprising a cell having a non-internalizing receptor, and a nanoparticle surface-modified with a ligand that binds to the non-internalizing receptor.

The present disclosure relates to methods of treating a patient with a cancer by administering to the patient a composition comprising CAR T cells and administering to the patient a small molecule linked to a targeting moiety by a linker. The disclosure also relates to compositions for use in such methods.

The present invention includes compositions and methods comprising sortase immune receptors and sortase chimeric antigen receptors (CARs).

Provided are genetically engineered induced pluripotent stem cells (iPSCs) and derivative cells thereof expressing mono- and/or bi-specific chimeric antigen receptors (CAR) with anti-CD133 and anti-EGFR antigen binding domains, and methods of using the same. Also provided are compositions, polypeptides, vectors, and methods of manufacturing.

The disclosure provides synthetic immune receptors (SIRs), nucleic acids encoding the SIRs, methods of making and using the SIRs, in, for example, adoptive cell therapy.

The present disclosure provides novel cell compositions engineered to express at least a chimeric antigen receptor and a survival factor. Methods of using such cell compositions are also described.

The present application relates to an antigen peptide derived from the sequence of epidermal growth factor receptor having T790M point mutation and a pharmaceutical composition for the treatment of cancer comprising the peptide.