Production and use of novel therapeutic cells, called T-Vehicles, in the allogeneic Adoptive Cell Therapy setting allows a wide range of therapeutic benefits to accrue with minimal or no risk of GVHD. T-Vehicles are created from donor T cells that are altered to contain therapeutic attributes that do not include their native antigen receptors and can deliver therapeutic benefits irrelevant of their native antigen specificity. T-Vehicles can possess highly restricted native antigen specificity that renders them unable to recognize antigens present on normal cells and incapable of initiating GVHD, making them ideal transport vehicles to deliver various therapeutic attributes in vivo. In essence, production and use of T-Vehicles is a paradigm shift that opens the door to therapeutic application of T cells in ways not previously contemplated, independent of whether or not there is an HLA match between the donor and the recipient.

The invention features a method for treating graft versus host disease in a human, including administering to said human a therapeutically effective amount of a cell including a chimeric antigen receptor (CAR) which is specifically directed against an immune checkpoint molecule.

The invention provides methods and compositions for administration of allogeneic lymphocytes as an exogenous source of CD4+ T cell help for endogenous, tumor-reactive CD8+ T cells.

The present disclosure provides distinct therapeutic populations of cells that form a pharmaceutical composition useful in hematopoietic stem/progenitor cell transplant. For example, the present disclosure provides a therapeutic population of cells, comprising an enriched population of hematopoietic stem/progenitor cells, memory T cells, regulatory T cells, and wherein the population of cells is depleted of nave conventional -T cells. The present disclosure further provides methods of treatment using the therapeutic population of cells. In other embodiments, the present disclosure provides methods of producing a therapeutic population of cells.

The present invention relates to the field of adoptive cell therapy (ACT), particularly to a method for conditioning a subject for treatment with a medicament comprising regulatory T cells (Tregs), the method comprising administering a low dose of anti-thymocyte globulin (ATG) to the subject about 8 weeks or less before administration of the medicament.

Described herein are immunoresponsive cells which are useful for their preventive and therapeutic potential against autoimmune diseases and rejections of solid organ transplants.

The present invention provides composition kits and methods for treating cancer in a human by immunotherapy using successive doses of CAR-T cells with no or reduced anamnestic immune reaction in one individual (P).

Methods of stimulating or enhancing an immune response in a host are disclosed. The methods include contacting a monocyte with 15 kD granulysin thereby producing a monocyte-derived dendritic cell. In one example, the method further includes contacting the monocyte or monocyte-derived dendritic cell with a target antigen, such as a tumor antigen or an autoimmune antigen. In another embodiment, the method includes contacting the monocyte with an additional agent that enhances maturation of dendritic cells or induces immunological tolerance. The methods are of use in vivo, in vitro and ex vivo. In another aspect, the disclosure relates to compositions and methods for the treatment of tumors.

The present invention relates to a chimeric receptor capable of signaling both a primary and a co-stimulatory pathway, thus allowing activation of the co-stimulatory pathway without binding to the natural ligand. The cytoplasmic domain of the receptor contains a portion of the 4-1BB signaling domain. Embodiments of the invention relate to polynucleotides that encode the receptor, vectors and host cells encoding a chimeric receptor, particularly including T cells and natural killer (NK) cells and methods of use.

Methods and compositions are provided to augment the conversion of mixed hematopoietic cell chimerism to complete donor cell chimerism following allogeneic hematopoietic cell transplantation (HCT), where such transplantation may be utilized for treatment of cancer such as leukemia and lymphoma or for other conditions requiring reconstitution of the hematopoietic system, e.g. treatment of anemias, thalassemias, autoimmune conditions, and the like. The present invention improves on conventional DLI by utilizing a composition of substantially purified donor memory CD8.sup.+ T cells as DLI following allogeneic HCT, where the cells are administered at a suitable time following transplantation. The methods provide for a more complete donor chimerism, and have the further benefit of killing tumor cells without GVHD. The memory CD8+ T cells may include one or both of central and effector memory T cells, usually both.