Provided herein are tumor-infiltrating lymphocytes (TILs) engineered to express a membrane-bound interleukin 15 (mbIL15). The mbIL15 TILs can be expanded in vitro using a rapid expansion protocol without the use of exogenous interleukin 2 (IL2) and can be used in adoptive cell therapy without concomitant use of an exogenous cytokine such as IL2. The TIL can be further engineered such that the mbIL15 is operably linked to one or more drug responsive domains (DRDs), polypeptides that can regulate the abundance and/or activity of the IL15 upon binding of the DRD with a ligand. Also provided herein are components for making the modified TILs and methods for making and using the modified TILs.

Provided herein are compositions, kits, and methods for manufacturing cells for adoptive cell therapy comprising engineered immune cells that overexpress miR200c and/or EpCAM.

Methods and compositions for treating cancers (e.g., neural cancers) by dendritic cell vaccination are provided herein.

The present invention relates to methods and systems for increasing the affinity of a T cell receptor (TCR) to its ligand by subjecting the TCR gene to somatic hypermutation. The present invention further relates to use of affinity maturated TCRs to create T cells reactive against a selected antigen.

The present invention relates to modified T cell receptors (TCRs) and to their use in adoptive cell therapy (ACT), in particular for the transfer of T lymphocytes. The TCRs are mutated in the transmembrane regions of the alpha and beta chains with mutations favoring the correct TCR chain pairing. The correct pairing of the transferred exogenous alpha and beta TCR chains improves the functional activity and safety of the genetically modified T cells for the therapy of tumours and infectious diseases. The invention also relates to T cell receptor alpha or beta chain, to a recombinant TCR, a TCR complex, a nucleic acid coding for the TCR alpha or beta chain, to relative recombinant expression vector, host cells, pharmaceutical composition and to a method of detecting a hematological malignant cell, a solid tumor cell or an infected cell.

Disclosed are methods of preparing an isolated population of dendritic cells, isolated populations of dendritic cells prepared by the methods, and pharmaceutical compositions comprising the isolated population of dendritic cells. Also disclosed are methods of treating or preventing cancer using the isolated population of dendritic cells or pharmaceutical compositions.

The present invention relates to autologous dual-specific lymphocytes, methods of making and uses for the treatment of tumors. In particular, the invention relates to methods producing autologous dual-specific lymphocytes comprising an endogenous receptor for at least one tumor associated antigen and an exogenous receptor for a strong antigen.

The invention provides an isolated, purified population of human cells comprising CD8.sup.+ T cells with reduced Cbl-b activity. The invention provides uses of such cells in methods for inducing or enhancing an anti-tumor immune response in a subject. These methods comprise: (a) providing a cell population, from a subject or from another source, which comprises CD8.sup.+ T cells, (b) reducing Cbl-b activity in the CD8.sup.+ T-cells, (c) administering the cells of step (b) to the subject. The invention provides methods for making CD8.sup.+ T cells that do not require stimulation through a co-receptor in order for the cell to become activated or proliferated in response to contact via its T cell receptor. Such methods are based upon reducing function of Cbl-b. The invention also provides methods for identifying agents which affect Cbl-b expression or activity.

Novel costimulatory fusion proteins and DNA sequences that enhance T cell responses to weakly immunogenic and/or lowly expressed antigens and that confer T cell resistance against MDSC-mediated suppression are disclosed. The fusion proteins comprise portions of CD4, CD8? or the T cell receptor linked to a specific region of MyD88 or other signaling molecules. These fusion proteins and sequence variants thereof improve T cell activation and responsiveness. Also disclosed is the use of these molecules in host cells as a means to enhance and costimulate responses of immune cells including cytotoxic CD8.sup.+ T cells and the use of these cells to treat cancer, infectious agents and other diseases.

The present invention relates to an agent for the treatment and/or prophylaxis of an autoimmune disease, an agent for the formation of regulatory T cells (T.sub.Reg) in an organism and various methods in which the agents according to the invention are used.