The present invention relates to activated lymphocytes comprising cytokine-induced killer cells in which CD8.sup.+CD56.sup.+NKG2D.sup.+ cells are present at a proportion of 20% or more, and a preparation method therefor, and more particularly, to activated lymphocytes comprising cytokine-induced killing cells which have high tumor cell killing abilities and growth rates and are almost free of side effects because they do not require the combined administration of interleukin-2, and a preparation method therefor.

The present invention relates to activated lymphocytes comprising cytokine-induced killer cells in which CD8.sup.+CD56.sup.+NKG2D.sup.+ cells are present at a proportion of 20% or more, and a preparation method therefor, and more particularly, to activated lymphocytes comprising cytokine-induced killing cells which have high tumor cell killing abilities and growth rates and are almost free of side effects because they do not require the combined administration of interleukin-2, and a preparation method therefor.

The use of luteinizing hormone receptor (LHR) binding agents and luteinizing hormone (LH) agonists to enrich for primitive hematopoietic stem cell (pHSC) populations, to target pHSC for ablation, and/or to expand pHSC populations are described. The methods can be used to prepare therapeutic hematopoietic stem cell (HSC) populations, to prepare patients for therapeutic HSC transplants, and/or to treat malignancies, such as those associated with hyperproliferative HSC.

Provided herein is an antibody as well as chimeric antigen receptor (CAR) to the Aspergillus antigen p60-binding domain. Further provided herein are immune cells expressing the CARs as well as methods of their use in the treatment of fungal infections and cancer.

Provided herein are methods of generating MDSCs ex vivo. The methods include culturing blood cells with lactoferrin.

Methods and compositions are provided for combined transplantation of a solid organ and hematopoietic cells to a recipient, where tolerance to the graft is established through development of a persistent mixed chimerism. An individual with persistent mixed chimerism, usually for a period of at least six months, is able to withdraw from the use of immunosuppressive drugs after a period of time sufficient to establish tolerance.

Methods and compositions are provided for combined transplantation of a solid organ and hematopoietic cells to a recipient, where tolerance to the graft is established through development of a persistent mixed chimerism. An individual with persistent mixed chimerism, usually for a period of at least six months, is able to withdraw from the use of immunosuppressive drugs after a period of time sufficient to establish tolerance.

Provided herein are humanized mouse models and methods for determining whether administration of engineered immune cell therapies likely elicit cytokine release syndrome and/or determining the efficacy of an anti-disease therapy. Further, the models provided herein may be used to test the efficacy of different anti-CRS therapies.

Provided herein are humanized mouse models and methods for determining whether administration of engineered immune cell therapies likely elicit cytokine release syndrome and/or determining the efficacy of an anti-disease therapy. Further, the models provided herein may be used to test the efficacy of different anti-CRS therapies.

Provided herein are lentiviral vectors comprising a mutated, heterologous envelope protein, a targeting protein, and at least one transgene for delivery to and expression by a cell characterized by the targeting protein. Also provided are methods and materials for producing the lentiviral vectors described herein, methods for transducing target cells, and cells transduced by lentiviral vectors according to the present disclosure.