The present application is directed to agents that bind an epitope specific to a 3 TCR. Such agents can be, but are not limited to, an antibody or fragment thereof. Also described herein are methods for using the agents, e.g., to expand or selectively expand 3 T cells. Also described herein are methods of using expanded 3 T cells for treatment of a subject in need thereof.

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.

Disclosed herein are chimeric antigen receptor effector cells (CAR-ECs) and CAR-EC switches. The switchable CAR-ECs are generally T cells. The one or more chimeric antigen receptors may recognize a peptidic antigen on the CAR-EC switch. The CAR-ECs and switches may be used for the treatment of a condition in a subject in need thereof.

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.

Aspects of the disclosure relate to novel scFv molecules that are useful for incorporation into novel chimeric antigen receptors with enhance anti-tumor activity. Further aspects relate to a polypeptide comprising a CAR comprising, in order from amino proximal to carboxy proximal end, a scFv, a transmembrane domain, a torsional linker, and a cytoplasmic region comprising a primary intracellular signaling domain, wherein the torsional linker comprises 1-12 alanine residues. Also described are nucleic acids comprising a sequence encoding a polypeptide of the disclosure, vectors, such as lentiviral vectors comprising the nucleic acids of the disclosure, cells comprising and/or expressing nucleic acids and/or polypeptides of the disclosure, and populations of cells comprising the cell embodiments of the disclosure. Also provided are methods of making cells that express a polypeptide and methods of treating patients with the polypeptides and cell compositions of the disclosure.

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.

Provided for herein are viral particles comprising a heterologous viral glycoprotein and a targeting moiety, wherein the targeting moiety comprises a polypeptide comprising a formula of T-S.sub.1, wherein T is a target binding domain and S.sub.1 is a stalk portion. The stalk portion may comprise a variant Fe domain. The stalk portion may comprise a flexible polypeptide domain. The targeting moiety comprising the formula T-S.sub.1 may be incorporated into a viral particle to assist with targeting such particles to a specific cell type. Also provided for herein are compositions comprising the same, and methods of using the same.

Provided herein are methods of ex vivo administration of a lipid particle or a payload gene, to a subject. In some embodiments, the methods are in-line methods of administration of a lipid particle or payload gene that are performed in a closed fluid circuit. Also provided are related compositions, containers, and systems in connection with the provided methods.

The invention provides a system that comprises pharmaceutical agents for use in immunotherapy for reducing the side-effects of an antigen-recognizing receptor against antigen-expressing non-target cells in an individual. The system includes an antigen-recognizing receptor that specifically recognizes an antigen on target cells and at least on one hematopoietic cell type in the individual. The antigen-recognizing receptor is exemplified by chimeric antigen receptors (CAR) be expressed on the surface of an immune effector cells. The system also includes hematopoietic cells resistant to recognition of the same antigen by the antigen-recognizing receptor.

The present disclosure provides chimeric antigen receptors, compostions, and methods thereof. In one embodiment the present disclosure provides a method of treating autoimmune diseases, asthma, and preventing or mediating organ rejection in a subject.