Embodiments of the disclosure include methods of identifying and selecting suitable donors for use in constructing donor minibanks of antigen-specific T cell lines; donor minibanks of antigen-specific T cell lines; and donor banks made up of a plurality of such minibanks. The present disclosure includes methods of treating a disease or condition comprising administering at least one antigen-specific T cell line from such a donor minibank or donor bank to patient (e.g., who has received transplanted material from a transplant donor in a transplant procedure), and methods for selecting the best HLA-matched antigen-specific T cell line in the donor minibank for a particular patient.

Disclosed are populations of dendritic cells generated from stem cells capable of inducing immunity towards cancer. In one embodiment said dendritic cells are generated from allogeneic inducible pluripotent stem cells, for some uses, said pluripotent stem cells are genetically engineered/edited to induce cancer specific immunity and/or resist immunosuppressive effect of tumor derived microenvironment. In one embodiment pluripotent stem cells are transfected with cancer stem cell antigens such as BORIS and/or NR2F6.

Disclosed are means, methods and compositions of matter useful for induction of immunity towards cancer stem cells by providing a dendritic cell, wherein said dendritic cells express BORIS and/or peptides derived from BORIS, wherein said dendritic cell is cultured in the presence of one or more immunocytes. In one embodiment said dendritic cells are derived from umbilical cord blood sources and allogeneic to T cells, which are expanded ex vivo and used for the purposes of immunotherapy.

Methods and composition for production of T cells are provided. Also provided are therapeutic methods using engineered T cells. For example, in certain aspects methods include preparing three dimensional cell culture compositions comprising stroma cells and hematopoietic stem or progenitor cells in a serum-free medium for producing T cells.

In some embodiments, methods of delivering a therapeutically effective amount of an expanded number of tumor infiltrating lymphocytes obtained from tumor remnants to a patient in need thereof, for the treatment of a cancer, are disclosed.

The present invention relates to alternatively activated macrophages (AAMs) for use in the treatment of liver injury and methods of treating and preventing liver injury using AAMs.

Provided herein are, inter alia, methods, compositions, and kits for producing adipocyte populations such as beige adipocyte populations. Also included are methods and compositions for increasing the level of adipocyte populations (e.g., beige adipocyte populations) in a subject, as well as methods and compositions for treating subjects who are overweight, obese, or who have diabetes.

The present invention is directed to Virus specific Cytokine-Induced Killer cells (CIK), their use as a medicament and to a method for obtaining these Virus specific Cytokine-Induced Killer cells.

Provided herein are genome-edited γδ T cells that exhibit an increased capacity to kill cancer cells, methods of producing genome-edited γδ T cells, and methods of treating or preventing a condition by administering genome-edited γδ T cells to a subject in need thereof.

The present invention provides in vitro derived a multicell conjugate comprising an iNKT cell and a dendritic cell (DC). The invention also provides methods of making the multicell conjugate and methods of using the multicell conjugate and compositions comprising the same to treat one or more conditions associated with an antigen or methods of activating an immune response.