A chimeric antigen receptor (CAR) comprising (1) an extracellular portion of Fms-related tyrosine kinase 3 ligand (FLT3L) that binds to Fms-related tyrosine kinase 3 (FLT3), (2) a transmembrane domain, (3) a costimulatory signaling domain, and (4) an intracellular signaling domain. A nucleic acid sequence encoding the CAR. A vector and cell comprising the nucleic acid sequence encoding the CAR. A cell expressing the CAR. A composition of cells expressing the CAR. A method of administering the composition of cells expressing the CAR to a subject for stimulating in the subject an immune response against cells which express FLT3.

The invention includes compositions and methods related to multimodal therapies, e.g., for treating a cancer. A multimodal therapy described herein provides and/or administers a plurality of agents that function in a coordinated manner to provide a therapeutic benefit to a subject in need thereof, e.g., a subject having a cancer.

This invention is directed to treatment of a subject having or suspected of having a cancer comprising administering to the subject a monoclonal antibody and NK-92 expressing Fc receptor.

The present invention relates to tolerogenic mammalian dendritic cells (iDCs) and methods for the production of tolerogenic DCs. In addition, the present invention provides methods for administration of tolerogenic dendritic cells as well as particles containing oligonucleotides to mammalian subjects. Enhanced tolerogenicity in a host can be useful for treating inflammatory and autoimmune related diseases, such as type 1 diabetes.

Cells, such a T-cells, are provided that comprise cytokine receptors having increased activity in response to their ligand. For example, cell can comprise IL-2 and/or IL-15 receptors having increased surface expression or signaling activity. Cells of the embodiments have a significant growth advantage in the presence of cytokines and can be used, e.g., for enhanced adoptive cell transfer therapies.

A non-human mammalian model for human diseases or disorders comprising a non-human neutrophil depleted mammalian host engrafted with a human skin equivalent (huSE) and human immune cells.

Disclosed herein is a novel chimeric antigen receptor and use thereof. The novel chimeric antigen receptor consists of a signal peptide, an antigen binding domain, a transmembrane region, and an intracellular signal domain, and comprises a 4-1BB signal peptide and/or a 4-1BB molecular transmembrane region. Nucleic acid sequences of various chimeric antigen receptors are separated and purified and provided is a chimeric antigen receptor and a CAR-T cell which are specific for a CD19 malignant tumor antigen. In the malignant tumor killing test of hematological cell lines, the ability of immune cells to target and recognize tumor cells is significantly enhanced, and the killing activity against tumor cells is also enhanced.

Provided is a pharmaceutical composition, including an antigen fusion protein which includes an antigen and an antagonist of an Fc gamma receptor. Also provided is a method of enhancing immunogenicity of an antigen, including conjugating the antigen with an antagonist of an Fc gamma receptor to form an antigen fusion protein. Also provided is a method of enhancing an immune response to an antigen in a subject, including administering to the subject an effective amount of an antigen fusion protein which includes an antigen and an antagonist of an Fc gamma receptor. The present invention may be applied in the development of potent vaccines based on targeting vaccine antigens to antigen-presenting cells via binding to Fc gamma receptors.

An object of the present invention is to provide CAR-expressing T cells that coexpress a chimeric antigen receptor (CAR) and a T cell immune function-enhancing factor and have a high immunity-inducing effect and antitumor activity, and to provide a CAR expression vector for the preparation of the CAR-expressing T cells.

A CAR expression vector comprises a nucleic acid encoding a chimeric antigen receptor (CAR) and a nucleic acid encoding a T cell immune function-enhancing factor, wherein the nucleic acid encoding an immune function-enhancing factor is a nucleic acid encoding interleukin-7 and a nucleic acid encoding CCL19, a nucleic acid encoding a dominant negative mutant of SHP-1, or a nucleic acid encoding a dominant negative mutant of SHP-2, or a CAR-expressing T cell introduced with the CAR expression vector are prepared.

Provided herein are binding molecules, such as those that recognize or bind a peptide epitope of a cancer antigen, such as expressed on a cancer cell, including cells infected with human papilloma virus (HPV) or that contain HPV DNA sequences and/or those that recognize or bind a peptide epitope of HPV 16 E6 or E7, in the context of a major histocompatibility complex (MHC) molecule. Among the provided binding molecules are T cell receptors (TCRs) or antibodies, including antigen-binding fragments thereof, that bind or recognize such peptide epitopes. The present disclosure further relates to engineered cells comprising such binding molecules, e.g., TCRs or antibodies (and chimeric antigen receptors containing the antibodies), and uses thereof in adoptive cell therapy.