Abstract: The invention provides improved methods of producing dendritic cells (“DCs”) that transiently express a membrane homing peptide and optionally at least one additional antigen. These DCs have the ability to home to lymph nodes in vivo. In some embodiments, these DCs can be administered to a patient intravenously and can subsequently home to lymph nodes and stimulate an immune response. The methods and DCs of the invention are useful for the treatment of various diseases and disorders.

Abstract: The invention relates to T cells transiently transfected with RNA, especially RNA encoding a T cell receptor and/or FoxP3, and to methods of transfecting T cells with RNA by electroporation. Compositions of the invention include an effector T cell transiently transfected with RNA encoding a T cell receptor (TCR) specific for an antigen, wherein the T cell demonstrates effector function specific for cells presenting the antigen in complex with an MHC molecule. Treg cells comprising an exogenous RNA encoding FoxP3 are also provided. The transfected T cells are useful for immunotherapy, particularly in the treatment of tumors, pathogen infection, autoimmune disease, transplant rejection and graft versus host disease.

Abstract: The present invention relates to melanoma-associated chondroitin sulfate proteoglycan (MCSP) epitopes recognized by T cells, especially by CD4+ T lymphocytes (short T-cells) and CD8+ T cells, on human melanoma cells.

Abstract: The present invention provides an improved method for gene delivery in eukaryotic cells by electroporation, preferably in human hematopoietic cells, particular dendritic cells. The method of the invention is superior to lipofection and passive pulsing of mRNA and to electroporation of plasmid cDNA for gene delivery, including tumor antigen loading of dendritic cells.

Abstract: A method for producing proliferating cultures of dendritic cell precursors is provided. Also provided is a method for producing mature dendritic cells in culture from the proliferating dendritic cell precursors. The cultures of mature dendritic cells provide an effective means of producing novel T cell dependent antigens comprised of dendritic cell modified antigens or dendritic cells pulsed with antigen, including particulates, which antigen is processed and expressed on the antigen-activated dendritic cell. The novel antigens of the invention may be used as immunogens for vaccines or for the treatment of disease. These antigens may also be used to treat autoimmune diseases such as juvenile diabetes and multiple sclerosis.

Abstract: The invention provides CD4+CD25? T cells and Tr1-like regulatory T cells (i.e., contact-independent Type 1-like regulatory T cells), processes for their production and their use for regulatory purposes.

Abstract: The present invention provides a method for the direct culture of dendritic cell precursors enriched by elutriation without a preceding centrifugation step to generate dendritic cells.

Abstract: We describe an improved method for generating sizable numbers of mature dendritic cells from nonproliferating progenitors in human blood. The first step or “priming” phase is a culture of T cell depleted mononuclear cells in medium supplemented with GM-CSF and IL-4 to produce immature dendritic cells. The second step or “differentiation” phase requires the exposure to dendritic cell maturation factor such as monocyte conditioned medium. Using this two-step approach, substantial yields are obtained. The dendritic cells derive from this method have all the features of mature cells. They include a stellate cell shape, nonadherence to plastic, and very strong T cell stimulatory activity. The mature dendritic cells produced according to this invention are useful for activating T cells.

Abstract: The present invention provides suppressive and/or regulative human CD4+CD25+ T cells, a method for expanding same, and the use of the suppressive and/or regulative human CD4+CD25+ T cells and the expanded T cells as regulatory agent.

Abstract: The invention relates to a method for producing ready to use, antigen loaded or unloaded, cryoconserved mature dendritic cells especially for the production of a vaccine containing said dendritic cells, wherein immature dendritic cells are cultivated in the presence of suitable maturation stimuli and the mature dendritic cells thus obtained are frozen. The dendritic cells can be loaded with antigen before freezing. The invention also relates to a vaccine which can be obtained according to the inventive method and to a composition containing frozen, mature dendritic cells which are loaded with antigen.

Abstract: The invention provides CD4+CD25− T cells and Tr1-like regulatory T cells (i.e., contact-independent Type 1-like regulatory T cells), processes for their production and their use for regulatory purposes.

Abstract: The present invention provides a method for producing mature and stable dendritic cells or immature dendritic cells which comprises cultivating hematopoietic progenitor cells in a sterile cultivating apparatus, an apparatus suitable for said method and a method for preparing peripheral blood mononuclear cells, which are suitable for cultivation of dendritic cells.

Abstract: The present invention provides an improved method for gene delivery in eukaryotic cells by electroporation, preferably in human hematopoietic cells, particular dendritic cells. The method of the invention is superior to lipofection and passive pulsing of mRNA and to electroporation of plasmid cDNA for gene delivery, including tumor antigen loading of dendritic cells.

Abstract: A method for producing proliferating cultures of dendritic cell precursors is provided. Also provided is a method for producing mature dendritic cells in culture from the proliferating dendritic cell precursors. The cultures of mature dendritic cells provide an effective means of producing novel T cell dependent antigens comprised of dendritic cell modified antigens or dendritic cells pulsed with antigen, including particulates, which antigen is processed and expressed on the antigen-activated dendritic cell. The novel antigens of the invention may be used as immunogens for vaccines or for the treatment of disease. These antigens may also be used to treat autoimmune diseases such as juvenile diabetes and multiple sclerosis.

Abstract: We describe an improved method for generating sizable numbers of mature dendritic cells from nonproliferating progenitors in human blood. The first step or “priming” phase is a culture of T cell depleted mononuclear cells in medium supplemented with GM-CSF and IL-4 to produce immature dendritic cells. The second step or “differentiation” phase requires the exposure to dendritic cell maturation factor such as monocyte conditioned medium. Using this two-step approach, substantial yields are obtained. The dendritic cells derive from this method have all the features of mature cells. They include a stellate cell shape, nonadherence to plastic, and very strong T cell stimulatory activity. The mature dendritic cells produced according to this invention are useful for activating T cells.

Abstract: A method for producing proliferating cultures of dendritic cell precursors is provided. Also provided is a method for producing mature dendritic cells in culture from the proliferating dendritic cell precursors. The cultures of mature dendritic cells provide an effective means of producing novel T cell dependent antigens comprised of dendritic cell modified antigens or dendritic cells pulsed with antigen, including particulates, which antigen is processed and expressed on the antigen-activated dendritic cell. The novel antigens of the invention may be used as immunogens for vaccines or for the treatment of disease. These antigens may also be used to treat autoimmune diseases such as juvenile diabetes and multiple sclerosis.

Abstract: We describe an improved method for generating sizable numbers of mature dendritic cells from nonproliferating progenitors in human blood. The first step or “priming” phase is a culture of T cell depleted mononuclear cells in medium supplemented with GM-CSF and IL-4 to produce immature dendritic cells. The second step or “differentiation” phase requires the exposure to dendritic cell maturation factor such as monocyte conditioned medium. Using this two-step approach, substantial yields are obtained. The dendritic cells derive from this method have all the features of mature cells. They include a stellate cell shape, nonadherence to plastic, and very strong T cell stimulatory activity. The mature dendritic cells produced according to this invention are useful for activating T cells.

Abstract: A method for producing proliferating cultures of dendritic cell precursors is provided. Also provided is a method for producing mature dendritic cells in culture from the proliferating dendritic cell precursors. The cultures of mature dendritic cells provide an effective means of producing novel T cell dependent antigens comprised of dendritic cell modified antigens or dendritic cells pulsed with antigen, including particulates, which antigen is processed and expressed on the antigen-activated dendritic cell. The novel antigens of the invention may be used as immunogens for vaccines or for the treatment of disease. These antigens may also be used to treat autoimmune diseases such as juvenile diabetes and multiple sclerosis.

Abstract: We describe an improved method for generating sizable numbers of mature dendritic cells from nonproliferating progenitors in human blood. The first step or “priming” phase is a culture of T cell depleted mononuclear cells in medium supplemented with GM-CSF and IL-4 to produce immature dendritic cells. The second step or “differentiation” phase requires the exposure to dendritic cell maturation factor such as monocyte conditioned medium. Using this two-step approach, substantial yields are obtained. The dendritic cells derive from this method have all the features of mature cells. They include a stellate cell shape, nonadherence to plastic, and very strong T cell stimulatory activity. The mature dendritic cells produced according to this invention are useful for activating T cells.

Abstract: A method for producing proliferating cultures of dendritic cell precursors is provided. Also provided is a method for producing mature dendritic cells in culture from the proliferating dendritic cell precursors. The cultures of mature dendritic cells provide an effective means of producing novel T cell dependent antigens comprised of dendritic cell modified antigens or dendritic cells pulsed with antigen, including particulates, which antigen is processed and expressed on the antigen-activated dendritic cell. The novel antigens of the invention may be used as immunogens for vaccines or for the treatment of disease. These antigens may also be used to treat autoimmune diseases such as juvenile diabetes and multiple sclerosis.