Abstract: The technology relates in part to methods for inducing partial apoptosis of cells that express an inducible caspase polypeptide. The technology further relates in part to methods for inducing partial apoptosis of cells that express an inducible modified caspase polypeptide, having a modified dose response curve to the multimeric ligand inducer. The technology also relates in part to methods for cell therapy using cells that express the inducible caspase polypeptide or the inducible modified caspase polypeptide, where the proportion of caspase polypeptide-expressing cells eliminated by apoptosis is related to the administered amount of the multimeric ligand inducer.

Abstract: The technology relates in part to methods for controlling the activity or elimination of therapeutic cells using molecular switches that employ distinct heterodimerizer ligands, in conjunction with other multimeric ligands. The technology may be used, for example to activate or eliminate cells used to promote engraftment, to treat diseases or condition, or to control or modulate the activity of therapeutic cells that express chimeric antigen receptors or recombinant T cell receptors.

Abstract: The technology relates in part to methods for controlling the activity or elimination of therapeutic cells using multimerization of proteins to manipulate individual protein-protein interactions in therapeutic cells, for example, by activating or eliminating cells used to promote engraftment, to treat diseases or condition, or to control or modulate the activity of therapeutic cells that express chimeric antigen receptors or recombinant T cell receptors.

Abstract: The technology relates in part to methods for controlling elimination of therapeutic cells, for example, cells that express a chimeric antigen receptor. The technology further relates to a two-step method of controlling destruction of therapeutic cells in a patient following an adverse event. The two-step system may include a rapamycin or rapamycin analog-based level of control and a second, rimiducid, level of control. The technology also relates in part to methods for cell therapy using cells that express the inducible caspase polypeptide and the rapamycin-sensitive polypeptide, where the proportion of therapeutic cells eliminated by apoptosis is related to the choice and amount of the administered ligand.

Abstract: The technology relates generally to the field of immunology and relates in part to T cell compositions and methods for treating diseases and disorders associated with the presence of tumor cells that express prostate stem cell antigen.

Abstract: The technology relates generally to the field of immunology and relates in part to methods for activating cells, including for example T cells and T cells that express chimeric antigen receptors, using an inducible chimeric polypeptide including CD40, MyD88, or CD40 and MyD88 polypeptides. The technology further relates in part to therapeutic methods for inducing an immune response and treating tumors in a patient.

Abstract: We disclose various improvements for compositions of genetically-modified T cells which include a suicide switch. For instance, the composition may comprise CD4+ T cells and CD8+ T cells, wherein the ratio of CD4+ T cells to CD8+ T cells is less than 2.

Abstract: The technology relates generally to the field of immunology and relates in part to methods for activating T cells and other cells resulting in an immune response against a target antigen. The technology also relates to costimulation of therapeutic cells that express chimeric antigen receptors that recognize target antigens using chimeric MyD88- and CD40-derived polypeptides. The technology further relates in part to therapeutic cells that express chimeric antigen receptors, wherein the chimeric antigen receptors have an endodomain that includes MyD88- and CD40-derived polypeptides, and methods for treating patients using the modified therapeutic cells.

Abstract: The technology relates generally to the field of immunology and relates in part to compositions and methods for activating cells, including, for example T cells that express chimeric antigen receptors or recombinant TCRs, and reducing cytotoxicity, using chimeric polypeptides including MyD88 and signaling domains of receptor mediators of costimulation.

Abstract: The technology relates generally to the field of immunology and relates in part to methods for activating cells, including for example T cells and T cells that express chimeric antigen receptors, using an inducible chimeric polypeptide including CD40, MyD88, or CD40 and MyD88 polypeptides. The technology further relates in part to therapeutic methods for inducing an immune response and treating tumors in a patient.

Abstract: The technology relates generally to the field of immunology and relates in part to methods for activating T cells and other cells resulting in an immune response against a target antigen. The technology also relates to costimulation of therapeutic cells that express chimeric antigen receptors that recognize target antigens using chimeric MyD88- and CD40-derived polypeptides. The technology further relates in part to therapeutic cells that express chimeric antigen receptors, wherein the chimeric antigen receptors have an endodomain that includes MyD88- and CD40-derived polypeptides, and methods for treating patients using the modified therapeutic cells.

Abstract: The technology relates generally to the field of immunology and relates in part to methods for activating T cells and other cells resulting in an immune response against a target antigen. The technology also relates to costimulation of therapeutic cells that express chimeric antigen receptors that recognize target antigens using chimeric MyD88- and CD40-derived polypeptides. The technology further relates in part to therapeutic cells that express chimeric antigen receptors, wherein the chimeric antigen receptors have an endodomain that includes MyD88- and CD40-derived polypeptides, and methods for treating patients using the modified therapeutic cells.

Abstract: The technology relates generally to the field of immunology and relates in part to compositions and methods for activating T cells and other cells resulting in an immune response against a target antigen.

Abstract: The technology relates generally to the field of immunology and relates in part to methods for activating T cells and other cells resulting in an immune response against a target antigen. The technology also relates to costimulation of therapeutic cells that express chimeric antigen receptors that recognize target antigens using chimeric MyD88- and CD40-derived polypeptides. The technology further relates in part to therapeutic cells that express chimeric antigen receptors, wherein the chimeric antigen receptors have an endodomain that includes MyD88- and CD40-derived polypeptides, and methods for treating patients using the modified therapeutic cells.

Abstract: The technology relates in part to methods for inducing partial apoptosis of cells that express an inducible caspase polypeptide. The technology further relates in part to methods for inducing partial apoptosis of cells that express an inducible modified caspase polypeptide, having a modified dose response curve to the multimeric ligand inducer. The technology also relates in part to methods for cell therapy using cells that express the inducible caspase polypeptide or the inducible modified caspase polypeptide, where the proportion of caspase polypeptide-expressing cells eliminated by apoptosis is related to the administered amount of the multimeric ligand inducer.

Abstract: The technology relates in part to methods for inducing partial apoptosis of cells that express an inducible caspase polypeptide. The technology further relates in part to methods for inducing partial apoptosis of cells that express an inducible modified caspase polypeptide, having a modified dose response curve to the multimeric ligand inducer. The technology also relates in part to methods for cell therapy using cells that express the inducible caspase polypeptide or the inducible modified caspase polypeptide, where the proportion of caspase polypeptide-expressing cells eliminated by apoptosis is related to the administered amount of the multimeric ligand inducer.

Abstract: The technology relates generally to the field of immunology and relates in part to compositions and methods for controlling the proliferation of T cells, for example, therapeutic T cells. The methods further relate to compositions and methods for inducing an immune response in a subject.

Abstract: The technology relates in part to methods for inducing partial apoptosis of cells that express an inducible caspase polypeptide. The technology further relates in part to methods for inducing partial apoptosis of cells that express an inducible modified caspase polypeptide, having a modified dose response curve to the multimeric ligand inducer. The technology also relates in part to methods for cell therapy using cells that express the inducible caspase polypeptide or the inducible modified caspase polypeptide, where the proportion of caspase polypeptide-expressing cells eliminated by apoptosis is related to the administered amount of the multimeric ligand inducer.

Abstract: The technology relates generally to the field of immunology and relates in part to compositions and methods for controlling the proliferation of T cells, for example, therapeutic T cells. The methods further relate to compositions and methods for inducing an immune response in a subject.

Abstract: The technology relates in part to methods for inducing partial apoptosis of cells that express an inducible caspase polypeptide. The technology further relates in part to methods for inducing partial apoptosis of cells that express an inducible modified caspase polypeptide, having a modified dose response curve to the multimeric ligand inducer. The technology also relates in part to methods for cell therapy using cells that express the inducible caspase polypeptide or the inducible modified caspase polypeptide, where the proportion of caspase polypeptide-expressing cells eliminated by apoptosis is related to the administered amount of the multimeric ligand inducer.