Abstract: The invention relates to dendritic cells, the NF?B signaling pathway of which has been manipulated by RNA transfection, to the manufacture Thereof and to use thereof.

Abstract: The invention relates to dendritic cells, the NF?B signaling pathway of which has been manipulated by RNA transfection, to the manufacture thereof and to use thereof.

Abstract: The present invention relates to methods of prognosis of survival, of classifying a disease stage, and of selecting the mode of treatment of a patient diagnosed with malignant tumors such as melanoma, of a predictive marker for response to therapy, a kit for determination of the level of eosinophil cationic protein (ECP) in a sample of a tumor patient, such as a melanoma patient, and the use of this kit for methods of prognosis of survival, of classifying a disease stage and of selecting the mode of treatment and monitoring disease and response to treatment of a patient diagnosed with malignant tumors such as melanoma.

Abstract: The present invention relates to a method for in vitro detection and/or monitoring of a disease in a sample, based on measurement of enzymatic activity of proteases activated and secreted upon disease development, to modified peptides used for the enzymatic detection of the proteases, the use of the peptides, a kit comprising such peptides and the use of ADAM-protease activity as a surrogate marker for disease burden and activity in infectious, inflammatory, and malignant diseases, such as HIV infection and melanoma.

Abstract: The present disclosure pertains to the identification of novel biomarkers for the characterization of melanocytic lesions as can be found in skin diseases such as melanomas and psoriasis. In particular, the present invention is directed to a method for characterizing melanocytic lesions and their use in an automated or semi-automated device for the diagnosis and/or monitoring of benign, pre-malignant, and malignant melanocytic lesions, as further defined in the claims.

Abstract: The invention relates to dendritic cells, the NF?B signaling pathway of which has been manipulated by RNA transfection, to the manufacture thereof and to use thereof.

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 dendritic cells, the NF?B signaling pathway of which has been manipulated by RNA transfection, to the manufacture thereof and to use thereof.

Abstract: The present invention relates to a method for in vitro detection and/or monitoring of a disease in a sample, based on measurement of enzymatic activity of proteases activated and secreted upon disease development, to modified peptides used for the enzymatic detection of the proteases, the use of the peptides, a kit comprising such peptides and the use of ADAM-protease activity as a surrogate marker for disease burden and activity in infectious, inflammatory, and malignant diseases, such as HIV infection and melanoma.

Abstract: The invention relates to dendritic cells, the NF?B signaling pathway of which has been manipulated by RNA transfection, to the manufacture thereof and to use thereof.

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 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 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 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 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 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: 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.