Abstract: The present invention relates to the identification of proteins located on the cell surface of dendritic cells or precursors thereof, particularly antigen presenting dendritic cells. In particular, the present invention relates to compounds such as antibodies that bind these proteins. These compounds can be used to detect and/or enrich a subset of dendritic cells or precursors thereof. These compounds can also be used to target antigens to dendritic cells or precursors thereof to modulate a humoral and/or T cell mediated immune response to an antigen, or used to target cytotoxic agents to dendritic cells or precursors thereof involved in diseased states.

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 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, which can be used to treat and/or prevent diseases such as cancer, autoimmunity and infections. The present invention also relates to 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. The present invention further relates to methods of detecting 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 located on the cell surface of dendritic cells or precursors thereof, particularly antigen presenting dendritic cells. In particular, the present invention relates to compounds such as antibodies that bind these proteins. These compounds can be used to detect and/or enrich a subset of dendritic cells or precursors thereof. These compounds can also be used to target antigens to dendritic cells or precursors thereof to modulate a humoral and/or T cell mediated immune response to an antigen, or used to target cytotoxic agents to dendritic cells or precursors thereof involved in diseased states.

Abstract: The present invention relates to the identification of proteins located on the cell surface of dendritic cells or precursors thereof, particularly antigen presenting dendritic cells. In particular, the present invention relates to compounds such as antibodies that bind these proteins. These compounds can be used to detect and/or enrich a subset of dendritic cells or precursors thereof. These compounds can also be used to target antigens to dendritic cells or precursors thereof to modulate a humoral and/or T cell mediated immune response to an antigen, or used to target cytotoxic agents to dendritic cells or precursors thereof involved in diseased states.

Abstract: The present invention relates to the identification of proteins located on the cell surface of dendritic cells or precursors thereof, particularly antigen presenting dendritic cells. In particular, the present invention relates to compounds such as antibodies that bind these proteins. These compounds can be used to detect and/or enrich a subset of dendritic cells or precursors thereof. These compounds can also be used to target antigens to dendritic cells or precursors thereof to modulate a humoral and/or T cell mediated immune response to an antigen, or used to target cytotoxic agents to dendritic cells or precursors thereof involved in diseased states.

Abstract: The present invention relates to 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, which can be used to treat and/or prevent diseases such as cancer, autoimmunity and infections. The present invention also relates to 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. The present invention further relates to methods of detecting 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 generally to therapeutic agents and methods which enhance or otherwise maintain a state of immune tolerance in a subject. The present invention further provides agents and methods for preventing or at least delaying onset of an autoimmune disease such as but not limited to autoimmune diabetes. Furthermore, the agents and methods of the present invention are useful in enhancing the effectiveness of vaccine regimes such as against cancer cells or pathogenic organisms and viruses or for generally enhancing the immune responsiveness against such entities. The present invention further enables the prevention of pathogenic agent-induced autoimmune conditions.

Abstract: The present invention relates to an enhanced and simplified herpes virus amplicon packaging system. The packaging system comprises a herpes virus amplicon vector and a packaging vector. In one embodiment, the packaging vector comprises a bacterial artificial chromosome (BAC) containing the HSV-1 genome. The packaging vector contains an intact pac site but is otherwise rendered packaging defective. The packaging vector can be rendered packaging defective by inserting nucleotides into the pac site, or by otherwise interfering with the capsid's ability to close, for example, by increasing the size of the DNA fragment upon which the herpes virus genome is cloned. This system can be used to package a wide range of nucleotide sequences (e.g., a therapeutic or antigenic gene) into an empty herpes virus particle taking advantage of the large transgene capacity of herpes viruses. This system can also be used as a vaccine to induce protective immunity against HSV-1, or other complex pathogens.