Disclosed herein are anti-mesothelin antibodies and antigen-binding fragments, chimeric antigen receptors (CARs) having these anti-mesothelin antibodies and antigen-binding fragments (mesothelin CARs) and genetically modified immune effector cells having such mesothelin CARs. Polynucleotides encoding the anti-mesothelin antibodies and antigen-binding fragments and mesothelin CARs are also provided herein. Compositions comprising anti-mesothelin antibodies and antigen-binding fragments and mesothelin CARs are also provided herein. The present disclosure also relates to uses of the anti-mesothelin antibodies and antigen-binding fragments and genetically modified immune effector cells having such mesothelin CARs in cancer treatment.

The present invention relates to compositions and methods for enhancing T cell metabolism and activity for more effective adoptive T cell therapy. By expressing an chimeric antigen receptor and bispecific antibodies in T cells, the T cells are metabolically enhanced with improved cytotoxicity and resistance to immunosuppression imposed by tumor microenvironments. Certain aspects include modified T cells and pharmaceutical compositions comprising the modified cells for adoptive cell therapy and treating a disease or condition associated with enhanced immunity.

The present disclosure provides gene edited modified immune cells or precursors thereof (e.g., gene edited modified T cells) comprising an exogenous T cell receptor (TCR) and/or a chimeric antigen receptor (CAR) having specificity for a target antigen, and an insertion and/or deletion in one or more endogenous gene loci, wherein the endogenous gene loci encode regulators of T cell function, thereby resulting in immune cells having enhanced function. Compositions and methods of treatment are also provided. The present invention provides methods of screening for TCR- or CAR-T cells with enhanced immune function (e.g., T cell efficacy, T cell memory, and/or T cell persistence).

The present disclosure provides therapeutic agents comprising oncolytic vaccinia viruses and NK cells, and uses thereof for preparation of drugs for treatment of tumors and/or cancers. The active ingredients of the therapeutic agents comprise an oncolytic vaccinia virus and NK cells, wherein the oncolytic vaccinia virus can selectively replicate in tumor cells.

Implantable scaffolds that treat solid tumors and escape variants and that provide effective vaccinations against cancer recurrence are described. The scaffolds include genetically-reprogrammed lymphocytes and a lymphocyte activating moiety.

The present invention provides a chimeric antigen receptor (CAR) fusion protein comprising from N-terminus to C-terminus: (i) a single-chain variable fragment (scFv) comprising V.sub.H and V.sub.L, wherein scFv has an activity against CD47, (ii) a transmembrane domain, (iii) at least one co-stimulatory domains, and (iv) an activating domain. In one embodiment, the scFv is derived from a humanized anti-CD47 antibody. The present invention also provides T cells modified to express the CAR of the present invention.

The present disclosure provides therapeutic agents and uses thereof for drugs for treatment of tumors and/or cancers. The active ingredients of the therapeutic agents comprise an oncolytic virus that selectively replicate in tumor cells and comprise NK cells.

The present invention relates to an in vitro culture of haematopoietic cells, wherein said haematopoietic cells differentiate to form granulocytes characterised by the ability to kill cancer cells. The invention also relates to said granulocytes, methods for identifying said haematopoietic cells and granulocytes, compositions and kits comprising the same, as well as uses of the same for treating cancer.

Embodiments of the disclosure include methods and compositions that allow for development of efficient chimeric antigen receptors (CARs) by selecting appropriate spacer content and/or length by balancing the effects of tonic signaling with the efficacy of antigen recognition for the spacer. In specific embodiments, the CH3 domain from IgG2 is utilized as a spacer. In specific embodiments, T cell metabolic activity is utilized as a measure of tonic signaling to facilitate determination of suitable CAR constructs. In other embodiments, cells bearing chimeric Fc receptor target molecules are utilized to target Fc gamma receptor (FcR)-bearing for the purpose of their destruction.

A polypeptide comprising the sequence of SEQ. ID NO. 2, 3, 4, 7 or 8. The polypeptide may have the sequence of an immunogenic fragment thereof comprising at least eight amino acids, wherein the immunogenic fragment is not one of SEQ. ID NOS. 6 or 11 to 16. The polypeptide may have a sequence having at least 80% sequence identity to the aforementioned polypeptide or immunogenic fragment. The polypeptide is less than 100 amino acids in length and does not comprise the sequence of any of SEQ. ID NOS. 10, 46, 56, 57 or 59 to 62 and does not consist of the sequence of SEQ ID NO. 58. The polypeptide is useful in the treatment or prophylaxis of cancer.