The present invention belongs to the fields of tumor therapy and molecular immunology. The present invention relates to an anti-CTLA4 antibody, pharmaceutical composition and use thereof. The anti-CTLA4 antibody of the present invention can specifically bind CTLA4, and can very effectively block the binding of CLTA4 to B7.

Disclosed are compositions and methods for targeted treatment of CD33-expressing cancers. In particular, chimeric antigen receptor (CAR) polypeptides are disclosed that can be used with adoptive cell transfer to target and kill CD33-expressing cancers. Also disclosed are immune effector cells, such as T cells or Natural Killer (NK) cells, that are engineered to express these CARs. Therefore, also disclosed are methods of providing an anti-tumor immunity in a subject with a CD33-expressing cancer that involves adoptive transfer of the disclosed immune effector cells engineered to express the disclosed CARs. Also disclosed are multivalent antibodies are disclosed that are able to engage T-cells to destroy CD33-expressing malignant cells.

The present disclosure provides methods comprising administering to the individual an effective amount of an agent that decreases or inhibits TIGIT expression and/or activity and an anti-cancer agent and/or an anti-cancer therapy. Further provided are kits comprising an anti-cancer agent, an agent that decreases or inhibits TIGIT expression and/or activity, or both, as well as instructions for use thereof.

The invention provides a vaccine composition comprising a flavivirus peptide comprising one or more CD8+ T cell epitopes, wherein the peptide is attached to a nanoparticle.

A CD7-CAR-T cell and preparation and application thereof. Specifically, the present invention provides a chimeric antigen receptor (CAR), and an antigen binding domain of the CAR comprises one or more CD7 nanobodies. The present invention further provides a CAR-T cell containing the CAR, and an endogenous CD7 expression of the CAR-T cell is blocked. The CAR-T cell can be used for treatment of T cell tumors.

D domain (DD) containing polypeptides (DDpp) that specifically bind targets of interest (e.g., BCMA, CD123, CS1, HER2, AFP, and AFP p26) are provided, as are nucleic acids encoding the DDpp, vectors containing the nucleic acids and host cells containing the nucleic acids and vectors. DDpp such as DDpp fusion proteins, are also provided as are methods of making and using the DDpp. Such uses include, but are not limited to diagnostic and therapeutic applications.

The present application discloses a method of treating cancer, including administering to a person suffering from cancer or in remission from cancer, an antigen presenting cell loaded with an immunogenic CD4 T cell activating antigen and a CD8 T cell activating neoantigen specific for the cancer.

Genetically engineered immune cells such as T cells having a disrupted CD83 gene and optionally expressing a chimeric antigen receptor (CAR) and therapeutic applications thereof. Such genetically engineered immune cells may further comprise a disrupted TRAC gene, a disrupted β2M gene, or a combination thereof.

Disclosed are compositions and methods for targeted treatment of CD33-expressing cancers. In particular, chimeric antigen receptor (CAR) polypeptides are disclosed that can be used with adoptive cell transfer to target and kill CD33-expressing cancers. Also disclosed are immune effector cells, such as T cells or Natural Killer (NK) cells, that are engineered to express these CARs. Therefore, also disclosed are methods of providing an anti-tumor immunity in a subject with a CD33-expressing cancer that involves adoptive transfer of the disclosed immune effector cells engineered to express the disclosed CARs. Also disclosed are multivalent antibodies are disclosed that are able to engage T-cells to destroy CD33-expressing malignant cells.

The present disclosure provides methods of treating cancer or light chain amyloidosis in a subject in need thereof comprising administering a combination therapy comprising an effective amount of Form A of nirogacestat dihydrobromide and a B-cell maturation antigen (BCMA)-directed therapy to the subject and the uses thereof.