The invention is directed to treatment of cancer, infections and various inflammatory and autoimmune conditions by affecting regulatory T cell stability and function via a Neuropilin-1:Semaphorin axis.

Cancer treatment is provided, by irradiating an individual with a localized, high single dose or short course of doses at a primary tumor site; collecting T cells from the individual after a period of time sufficient activation of an anti-tumor response; treating the individual with an effective dose of dose of chemotherapy; and reintroducing the T cell population back to the individual.

Provided herein are compositions and methods for adoptive cell therapy comprising engineered immune cells that express a tumor antigen-targeted chimeric antigen receptor and a prodrug converting enzyme.

Provision of a chimeric antigen receptor (CAR) comprising a disialoganglioside (GD2)-binding domain which comprises a) a heavy chain variable region (VH) having complementarity determining regions (CDRs) with the following sequences: b) a light chain variable region (VL) having CDRs with the following sequences: T cells expressing such a CAR are useful in the treatment of some cancers.

The present invention generally relates to T cells that are modified to enhance the efficiency of adoptive cellular therapy by modulating dendritic cell activity, a composition comprising modified T cells, vectors and methods for the treatment of cancer comprising administering modified T cells. In particular, the present invention provides modified T cells for use in adoptive cellular therapies for the treatment of solid tumours.

Current invention relates to a polynucleotide encoding activating chimeric receptors comprising engineered Natural Killer Group 2 member C (NKG2C) having enhanced affinity for HLA class I histocompatibility antigen alpha chain E (HLA-E)/peptide complex or an extracellular receptor domain of NKG2A coupled to an effector domain. It also relates to NK cells expressing such constructs and the use of these NK cells to induce cytotoxicity. It further exemplifies that the NK cells expressing polynucleotide encoding NKG2C (SIIS)/CD94/DAP12 or NKG2C/CD94/4-1 BB/CD3z showed enhanced NK cytotoxicity against cancer cells.

The invention relates to the prognosis and treatment of colon cancer. In particular, the present invention concerns the role of intestinal microbiota in the anticancer immune response elicited by ileal enterocytes succumbing to apoptosis, and provides immunogenic compositions for treating colorectal cancer (CRC), as well as signatures for prognosing CRC evolution.

Disclosed herein are antigenic peptide-MHC complexes, termed comPACT polypeptides and comPACT polynucleotides, and methods of producing such complexes. Also discloses herein are methods of producing libraries of comPACT polynucleotides and polypeptides, and their exemplary use in capturing cancer neoepitope-reactive T cells with high accuracy. Dual particle detection approaches for detection of neoantigen specific T cells with improved sensitivity and specificity are provided. Signal to noise ratio analysis of isolated T cells for detection of neoantigen-specific T cells with improved T cells is also provided.

The present disclosure provides methods and compositions related to the modification of immune effector cells to increase therapeutic efficacy. In some embodiments, immune effector cells modified to reduce expression of one or more endogenous target genes, or to reduce one or more functions of an endogenous protein to enhance effector functions of the immune cells are provided. In some embodiments, immune effector cells further modified by introduction of transgenes conferring antigen specificity, such as exogenous T cell receptors (TCRs) or chimeric antigen receptors (CARs) are provided. Methods of treating a cell proliferative disorder, such as a cancer, using the modified immune effector cells described herein are also provided.

The present disclosure provides compositions and methods for treating a peritoneal cancer in a subject. The methods include administering a T cell which is genetically modified to express a chimeric T cell receptor protein. The chimeric T cell receptor protein may include a T cell receptor signaling domain fused to the tumor associated antigen-binding fragment of an antibody or a T cell receptor signaling domain fused to a naturally occurring ligand which specifically binds to a tumor cell surface protein. The compositions and methods disclosed herein are therapeutically effective to reduce, for example, tumor burden, abdominal ascites, peritoneal mucin, or serum tumor marker levels.