Described herein are immune cells comprising: a T-cell receptor (TCR) and a chimeric stimulating receptor (CSR) that comprises (i) a ligand-binding module that is capable of binding or interacting with a target ligand; (ii) a transmembrane domain; and (iii) a CD30 costimulatory domain, in which the CSR in the immune cells lacks a functional primary signaling domain. Also provided herein are methods of using the same or components thereof (e.g., the CSR) for therapeutic treatment of cancers (e.g., solid tumor cancers).

The invention described herein provide Kaposi Sarcoma-Associated Herpesvirus (KSHV) oncoprotein antigens and epitopes for expanding antigen-specific T cells. Such expanded T cells are useful for, e.g., in allogeneic or off-the-shelf adoptive T cell therapy.

Provided methods of obtaining a plurality of T cell receptors specifically recognizing a target tumor antigen peptide from an individual that has clinically benefitted from an immunotherapy, such as Multiple Antigen Specific Cell Therapy. Also provided tumor-specific TCRs, engineered immune cells expressing the TCRs and methods of treating a disease using the engineered immune cells.

A chimeric antigen receptor is disclosed that includes: (a) an scFv comprising a light chain variable domain (V.sub.L) and a heavy chain variable domain (V.sub.H), wherein the scFv specifically binds to CCR4; (b) a hinge and transmembrane domain from CD8; (c) an intracellular 4-1BB signaling domain; and (d) an intracellular CD3 zeta signaling domain, wherein (a)-(d) are in N to C terminal order. Uses of the chimeric antigen receptor, such as for treating a malignancy, are also disclosed.

The present disclosure provides methods for selecting donors for ??T cell-based immunotherapy. The disclosure also provides methods for expanding and activating ?? T cells with improved cytotoxicity toward tumor cells and reduced T cell exhaustion. Pharmaceutical compositions comprising the expanded ?? T cells and methods of treatment are also provided.

Compositions and methods are provided for eliciting antigen-specific T-cell responses against human cyclin A1 (CCNA1), which is herein identified as a leukemia-associated antigen based on its overexpression in acute myeloid leukemia (AML) including leukemia stem cells (LSC) and in immunologically privileged testis cells, but not in other normal cell types. CCNA1-derived peptide epitopes that are immunogenic for T-cells including CTL are disclosed, as are immunotherapeutic approaches using such peptides for vaccines and generation of adoptive transfer therapeutic cells.

Isolated CDCA1-derived epitope peptides having Th1 cell inducibility are disclosed herein. Such peptides can be recognized by MHC class II molecules and induce Th1 cells. In preferred embodiments, such a peptide of the present invention can promiscuously bind to MHC class II molecules and induce CDCA1-specific cytotoxic T lymphocytes (CTLs) in addition to Th1 cells. Such peptides are thus suitable for use in enhancing immune response in a subject, and accordingly find use in cancer immunotherapy, in particular, as cancer vaccines. Also disclosed herein are polynucleotides that encode any of the aforementioned peptides, APCs and Th1 cells induced by such peptides and methods of induction associated therewith. Pharmaceutical compositions that comprise any of the aforementioned components as active ingredients find use in the treatment and/or prevention of cancers or tumors.

Disclosed are compositions and methods for treatment of breast cancer. Disclosed methods and compositions include dendritic cells loaded with cyclin B1 and WT-1 peptide antigens for immunotherapy. These dendritic cell vaccines are administered alone or in combination with other cancer therapies to improve outcomes. Disclosed methods also involve the use of therapeutic agents, such as anakinra, that block the IL-1 inflammation pathway. These agents are used in combination with chemotherapy and/or immunotherapy in treating breast cancer.

Disclosed are compositions and methods for treatment of breast cancer. Disclosed methods and compositions include dendritic cells loaded with cyclin B1 and WT-1 peptide antigens for immunotherapy. These dendritic cell vaccines are administered alone or in combination with other cancer therapies to improve outcomes. Disclosed methods also involve the use of therapeutic agents, such as anakinra, that block the IL-1 inflammation pathway. These agents are used in combination with chemotherapy and/or immunotherapy in treating breast cancer.

Isolated CDCA1-derived epitope peptides having Th1 cell inducibility are disclosed herein. Such peptides can be recognized by MHC class II molecules and induce Th1 cells. In preferred embodiments, such a peptide of the present invention can promiscuously bind to MHC class II molecules and induce CDCA1-specific cytotoxic T lymphocytes (CTLs) in addition to Th1 cells. Such peptides are thus suitable for use in enhancing immune response in a subject, and accordingly find use in cancer immunotherapy, in particular, as cancer vaccines. Also disclosed herein are polynucleotides that encode any of the aforementioned peptides, APCs and Th1 cells induced by such peptides and methods of induction associated therewith. Pharmaceutical compositions that comprise any of the aforementioned components as active ingredients find use in the treatment and/or prevention of cancers or tumors.