Abstract: The instant invention provides antibodies which recognize new epitope tags. Related kits for detecting these epitope tags or fusion proteins having these epitope tags are also provided.

Abstract: This invention relates to culture-expanded T suppressor cells derived from CD25?CD4+ T cells, and their use in modulating immune responses. This invention provides methods of producing culture-expanded T suppressor cells, which are antigen specific, and their use in modulating autoimmune diseases and transplantation rejection.

Abstract: The instant invention provides methods, systems and reagents for immunodetection involving novel epitope tags and antibodies which recognize these new epitope tags as well as the antibodies which detect the FLAG epitope tag. Fusion proteins comprising the epitope tags, as well as methods of purifying these proteins and kits detecting these proteins are also provided.

Abstract: The instant invention provides methods, systems and reagents for immunodetection involving novel epitope tags and antibodies which recognize these new epitope tags as well as the antibodies which detect the FLAG epitope tag. Fusion proteins comprising the epitope tags, as well as methods of purifying these proteins and kits detecting these proteins are also provided.

Abstract: This invention relates to methods and compositions useful for delivering antigens to dendritic cells which are then useful for inducing antigen-specific cytotoxic T lymphocytes and T helper cells. This invention also provides assays for evaluating the activity of cytotoxic T lymphocytes. According to the invention, antigens are targeted to dendritic cells by apoptotic cells which may also be modified to express non-native antigens for presentation to the dendritic cells. The dendritic cells which are primed by the apoptotic cells are capable of processing and presenting the processed antigen and inducing cytotoxic T lymphocyte activity or may also be used in vaccine therapies.

Abstract: The instant invention provides methods, systems and reagents for immunodetection involving novel epitope tags and antibodies which recognize these new epitope tags as well as the antibodies which detect the FLAG epitope tag. Fusion proteins comprising the epitope tags, as well as methods of purifying these proteins and kits detecting these proteins are also provided.

Abstract: The instant invention provides methods, systems and reagents for immunodetection involving novel epitope tags and antibodies which recognize these new epitope tags as well as the antibodies which detect the FLAG epitope tag. Fusion proteins comprising the epitope tags, as well as methods of purifying these proteins and kits detecting these proteins are also provided.

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: This invention relates to the in vivo expansion of NKT cells by their exposure to mature dendritic cells expressing ?-galactosyl ceramide and to methods of use thereof in modulating immune responses, such as anti-cancer responses, and enhancing memory responses.

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: This invention provides methods for silencing a pre-existing immune response in a mammal, as for example, in the setting of autoimmune diseases. The method comprises administering to a mammal immature dendritic cells which have been contacted in vitro with an antigen, or to target the antigen to immature dendritic cells in vivo, in order to silence and/or suppress a pre-existing CD8+ T cell immune response and induce IL-10 producing CD8+ T cells in said mammal. This invention further relates to methods for propagating immature dendritic cells, for maintaining immaturity by modification ex vivo, and uses thereof, including generation of regulatory T cells for passive immunotherapy. The present invention also relates to compositions and kits comprising immature dendritic cells and antigens.

Abstract: This invention relates to immunogenic compounds which may serve as ligands for NKT (natural killer T) cells and to methods of use thereof in modulating immune responses.

Abstract: The instant invention provides methods, systems and reagents for immunodetection involving novel epitope tags and antibodies which recognize these new epitope tags as well as the antibodies which detect the FLAG epitope tag. Fusion proteins comprising the epitope tags, as well as methods of purifying these proteins and kits detecting these proteins are also provided.

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 present invention relates to the identification of a subunit vaccine to prevent or treat infection of Epstein Barr Virus. In particular, EBNA-1 was identified as a vaccine antigen. In a specific embodiment, a purified protein corresponding to EBNA-1 elicited a strong CD4+ T cell response. The responsive CD4+ T cell are primarily TH1 in function. EBNA-1 is an attractive candidate for a protective vaccine against EBV, and for immunotherapy of EBV infection and neoplasms, particularly with dendritic cells charged with EBNA-1.

Abstract: This invention relates to culture-expanded T suppressor cells derived from CD25?CD4+ T cells, and their use in modulating immune responses. This invention provides methods of producing culture-expanded T suppressor cells, which are antigen specific, and their use in modulating autoimmune diseases and transplantation rejection.

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: This invention relates to methods and compositions useful for delivering antigens to dendritic cells which are then useful for inducing antigen-specific cytotoxic T lymphocytes and T helper cells. This invention also provides assays for evaluating the activity of cytotoxic T lymphocytes. According to the invention, antigens are targeted to dendritic cells by apoptotic cells which may also be modified to express non-native antigens for presentation to the dendritic cells. The dendritic cells which are primed by the apoptotic cells are capable of processing and presenting the processed antigen and inducing cytotoxic T lymphocyte activity or may also be used in vaccine therapies.

Abstract: The present invention relates to the identification of a subunit vaccine to prevent or treat infection of Epstein Barr Virus. In particular, EBNA-1 was identified as a vaccine antigen. In a specific embodiment, a purified protein corresponding to EBNA-1 elicited a strong CD4+ T cell response. The responsive CD4+ T cell are primarily TH1 in function. EBNA-1 is an attractive candidate for a protective vaccine against EBV, and for immunotherapy of EBV infection and neoplasms, particularly with dendritic cells charged with EBNA-1.

Abstract: The present invention relates to methods for targeting antigen to antigen presenting cells through specific endocytic receptors, which results in persistent antigen presentation in the context of MHC molecules. Such highly efficient antigen presentation results in robust and long lasting immune responses, in particular cell mediated responses. The invention provides for immune compositions containing antibodies to DEC-205 in combination with the antigen for eliciting either T cell mediated immunity when delivered with a dendritic cell maturation factor, or for inducing tolerance when delivered in the absence of a dendritic cell maturation factor. The compositions described in the present invention are effective as a single dose at low concentrations and show efficacy even with non-replicating subunit vaccines.