Abstract: The present invention relates to the identification of proteins which bind the dendritic cell marker known as Clec9A. The present invention provides new compounds for targeting therapeutic agents such as antigens to dendritic cells. Also provided are methods of modulating a humoral and/or T cell mediated immune response to the antigen, methods of delivery of a cytotoxic agent to dendritic cells thereof involved in diseased states, methods of modulating the uptake and/or clearance of cells with a disrupted cell membrane, cells infected with a pathogen, dying cells or dead cells, or a portion thereof, and methods of modulating antigen recognition, processing and/or presentation, as well as immune responses to material derived from cells with a disrupted cell membrane, cells infected with a pathogen, dying cells or dead cells, or a portion thereof.

Abstract: The present invention relates to the identification of proteins which bind the dendritic cell marker known as Clec9A. The present invention provides new compounds for targeting therapeutic agents such as antigens to dendritic cells. Also provided are methods of modulating a humoral and/or T cell mediated immune response to the antigen, methods of delivery of a cytotoxic agent to dendritic cells thereof involved in diseased states, methods of modulating the uptake and/or clearance of cells with a disrupted cell membrane, cells infected with a pathogen, dying cells or dead cells, or a portion thereof, and methods of modulating antigen recognition, processing and/or presentation, as well as immune responses to material derived from cells with a disrupted cell membrane, cells infected with a pathogen, dying cells or dead cells, or a portion thereof.

Abstract: The present invention relates to the identification of a PEST motif in Suppressor of Cytokine Signalling (SOCS) proteins, the deletion/inactivation of which has been found to increase the stability of the protein whilst maintaining at least one biological activity of the protein. Such SOCS proteins with deleted/inactivated PEST motifs can be used in gene and protein therapy procedures to provide a more stable SOCS protein when compared to the native protein. The present invention also relates to the characterization of the structure of SOCS proteins, and methods of using this structural information to identify compounds which modulate the activity of SOCS.

Abstract: The present invention provides isolated DNA molecules encoding human and murine LIF and methods of producing LIF by the expression of the isolated DNA in suitable host cells. The invention further provides human and murine LIF polypeptides, pharmaceutical compositions containing LIF, and methods of use thereof.

Abstract: The present invention relates to a isolated leukaemia inhibitory factor (LIF)-binding protein (LBP) in soluble form and obtainable from a first mammalian species, said LBP capable of inhibiting the ability of LIF from a second mammalian species to induce differentiation of M1 myeloid leukaemic cells in vitro to a greater extent when compared to its ability to inhibit LIF from said first mammalian species.

Abstract: The present invention provides isolated DNA molecules encoding human and murine LIF and methods of producing LIF by the expression of the isolated DNA and suitable host cells. The invention further provides human and murine LIF polypeptides, pharmaceutical compositions containing LIF, and methods of use thereof.

Abstract: The invention provides a recombinant or synthetic receptor or a derivative thereof, for granulocyte-macrophage colony-stimulating factor (GM-CSF). The GM-CSF receptor is useful, inter alia, in the treatment or diagnosis of GM-CSF-related diseases, and in the screening of agonists and antagonists of GM-CSF receptors. The invention further provides antibodies directed against GM-CSF receptor or derivatives thereof, and pharmaceutical compositions comprising either the GM-CSF receptor, the receptor derivative, or an antibody thereto, and methods of using thereof.

Abstract: The present invention provides isolated DNA molecules encoding human and murine LIF, and methods of producing LIF by the expression of the isolated DNA in suitable host cells. The invention further provides human and murine LIF polypeptides, pharmaceutical compositions containing LIF, and methods of use thereof.

Abstract: The invention provides a recombinant or synthetic receptor for granulocyte-macrophage colony-stimulating factor (GM-CSF) and biochemical and/or biological equivalents, homologues, or derivatives thereof. The GM-CSF receptor is useful inter alia in treatment and diagnosis of GM-CSF related diseases, and in screening of agonists and antagonists of binding of GM-CSF to its cell-bound receptors. The invention further provides nucleic acid sequences encoding GM-CSF receptor, recombinant DNA molecules comprising these sequences, and transformed hosts carrying the recombinant DNA molecules, as well as antibodies directed against GM-CSF receptor, and pharmaceutical compositions comprising either the GM-CSF receptor or antibody thereto.