The present invention provides compositions comprising chimeric receptors, including chimeric costimulatory receptors (CCRs), and/or chemokine receptors, methods for preparing CCRs and/or chemokine receptors, and therapeutic populations of tumor infiltrating lymphocytes, marrow infiltrating lymphocytes, and peripheral blood lymphocytes expressing CCRs and/or chemokine receptors with increased therapeutic performance and other advantages for the treatment of cancers, including solid tumor cancers.

Antigen binding molecules, chimeric receptors, and engineered immune cells to DLL3 are disclosed in accordance with the invention. The invention further relates to vectors, compositions, and methods of treatment and/or detection using the DLL3 antigen binding molecules and engineered immune cells.

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.

Disclosed herein are compositions and methods for enhancing T-cell activity by modulating a miRNA so as to improve T-cell therapies, infectious disease therapies and down-regulate auto-immune responses.

Provided are CRIS PR/CAS-related methods, compositions and components for editing a target nucleic acid sequence, or modulating expression of a target nucleic acid sequence, and applications thereof in connection with cancer immunotherapy comprising adoptive transfer of engineered T cells or T cell precursors.

The invention relates to therapy and methods of applying the therapy to a patient. The invention includes the introduction of immature dendritic cells into the patient and the introduction of anti-TNF antibody into the patient. The immature dendritic cells are introduced intratumorally and/or through vessel and the anti-TNF antibody is introduced intratumorally and/or through vessel and/or subcutaneously. The immature dendritic cells can be formed by collecting monocyte cells from the patient and culturing the cells in a culture medium. The invention can be effective to regress, reduce or eliminate tumor cells in tumor tissue of the patients, including metastasized tumors. Further, the treatment of the invention is effective in the absence of conventional therapy, such as radiotherapy and chemotherapy.

Compounds that either produced a higher proportion or greater absolute number of phenotypically identified nave, stem cell memory, central memory T cells, adaptive NK cells, and type I NKT cells are identified. Compositions and methods for modulating immune cells including T, NK, and NKT cells for adoptive cell therapies with improved efficacy are provided.

The present invention is directed to a nucleic acid molecule comprising a polynucleotide sequence encoding a chimeric antigen receptor comprising (a) an anti-CLEC14A binding domain, (b) a transmembrane domain and (c) an intracellular signalling domain; wherein said anti-CLEC14A binding domain is capable of binding to the C-type lectin domain of CLEC14A. The invention further provides a chimeric antigen receptor encoded by the nucleic acid molecule, a vector comprising the nucleic acid molecule, a cell comprising the nucleic acid molecule, vector or CAR and the therapeutic use of the nucleic acid, vector or cell, particularly in treating CLEC14A expressing conditions.

Disclosed are chimeric antigen receptor (CAR) engineered T lymphocyte membrane coated nanoparticles (CAR-T MNP) compositions and methods of using the same for delivering therapeutics to a particular target.

Provided are a novel fully human antibody for human B7H3, a chimeric antigen receptor, and uses thereof; also provided are a novel fully human anti-human B7H3 antibody, a chimeric antigen receptor containing the antibody, and genetically engineered cells expressing the receptor and the antibody. It has been verified by experiments that CAR-T, CAR-NK and CAR-iNKT cells targeting B7H3 prepared on the basis of the present chimeric antigen receptor have relatively strong proliferation ability, cytokine release ability and tumor cell killing ability, and can effectively eliminate tumor cells.