Abstract: The present invention relates to antibodies that specifically bind human human epidermal growth factor receptor 3 (also known as ERBB3 or HER3), methods for their production, pharmaceutical compositions containing said antibodies, and uses thereof. The present invention also provides the antigen binding protein, the nucleic acid, the vector, the cell, or the pharmaceutical for use as a medicament. The present invention further provides a method of inhibiting tumor growth or treating cancer, comprising administering a therapeutically effective amount of the antigen binding protein, the fusion protein or conjugate, the nucleic acid, the vector, the cell, or the pharmaceutical.

Abstract: The invention relates to antibodies or fragments thereof specific for insulin-like growth factor binding protein-7 (IGFBP7). A method of raising anti-IGFBP7 single domain antibodies is also disclosed and specific antibody clones are described, along with their binding characteristics. The anti-IGFBP7 antibodies may be useful as diagnostic tools for detecting neoplastic diseases involving tumor angiogenesis, and a variety of other angiogenesis associated diseases.

Abstract: The invention features a method of identifying an agent and generating an antibody that can cross the blood brain barrier, through the use of novel antigen isoforms of transmembrane domain protein 30A (TMEM30A). This is useful in establishing mechanisms of transmigration across the blood-brain barrier. These antigens are enriched in brain endothelium compared to other endothelial cells and may have better selectivity and capacity for brain delivery compared to transferrin and insulin receptors. One antigen is TMEM30A.

Abstract: The present invention relates to non-invasive brain delivery technology for centrally-acting analgesic peptides. Specifically, the invention is directed to compounds comprising an antibody or fragment thereof capable of transmigrating across the blood brain barrier (BBB) and an analgesic peptide. Compositions and methods of using the compounds or compositions are also provided.

Abstract: Anti-ICAM-1 VHH single-domain antibodies (sdAbs) are generated by immunizing a llama with recombinant ICAM-1. These antibodies are linked to an imaging moiety for in vivo or ex vivo imaging of ICAM-1-related pathological conditions including atherosclerotic plaques. The antibodies may also be linked to a therapeutic agent to specifically target and treat ICAM-1-related pathological conditions.

Abstract: Anti-ICAM-1 VHH single-domain antibodies (sdAbs) are generated by immunizing a llama with recombinant ICAM-1. These antibodies are linked to an imaging moiety for in vivo or ex vivo imaging of ICAM-1-related pathological conditions including atherosclerotic plaques. The antibodies may also be linked to a therapeutic agent to specifically target and treat ICAM-1-related pathological conditions.

Abstract: The present invention relates to non-invasive brain delivery technology for centrally-acting analgesic peptides. Specifically, the invention is directed to compounds comprising an antibody or fragment thereof capable of transmigrating across the blood brain barrier (BBB) and an analgesic peptide. Compositions and methods of using the compounds or compositions are also provided.

Abstract: The invention relates to antibodies or fragments thereof specific for insulin-like growth factor binding protein-7 (IGFBP7). A method of raising anti-IGFBP7 single domain antibodies is also disclosed and specific antibody clones are described, along with their binding characteristics. The anti-IGFBP7 antibodies may be useful as diagnostic tools for detecting neoplastic diseases involving tumor angiogenesis, and a variety of other angiogenesis associated diseases.

Abstract: A nanoconjugate is formed from a self-assembled unilamellar vesicle (ULV), at least one contrast agent which may be a MRI contrast agent, a radioisotope or a fluorophore, and at least one antibody, which may be an IgG or an antibody fragment such as a single-domain antibody. The nanoconjugate be targetted with the antibody to receptors specific to certain disease states, and thus be used in diagnostic and imaging methods using the properties o contrast agent.

Abstract: The invention features a method of identifying an agent and generating an antibody that can cross the blood brain barrier, through the use of novel antigen isoforms of transmembrane domain protein 30A (TMEM30A). This is useful in establishing mechanisms of transmigration across the blood-brain barrier. These antigens are enriched in brain endothelium compared to other endothelial cells and may have better selectivity and capacity for brain delivery compared to transferrin and insulin receptors. One antigen is TMEM30A.

Abstract: There is disclosed herein subunits and multimers of subunits suitable for use in inducing the transport of one or more cargo substances into a cell and in some instances across a cell. The subunits may have a targeting domain such a antibody or antibody fragment, a multimerization domain, such as a verotoxin B-subunit mutant scaffold, and a cargo molecule such as a drug or imaging agent, which may be directly linked to the subunit or may be packaged in a liposome, nanoparticle, or the like. In some instances the targeting domain may have affinity for a blood-brain barrier antigen and may be capable of inducing cell mediated transcytosis to facilitate delivery of the cargo molecule across the blood-brain barrier. In some instances the targeting region may have affinity for a cancer antigen and may be capable of inducing cell-mediated endocytosis.

Abstract: The invention features a method of identifying an agent and generating an antibody that can cross the blood bram barrier, through the use of novel antigen isoforms of transmembrane domain protein 30A (TMEM30A) This is useful in establishing mechanisms of transmigration across the blood-bram barrier. These antigens are enriched in bram endothelium compared to other endothelial cells and may have better selectivity and capacity for bram delivery compared to transferrin and insulin receptors One antigen is TMEM30A.

Abstract: A method of performing high repetition rate laser time domain imaging employs as fluoroprobes semiconductor nanocrystals having a fluorescence lifetime less than the laser pulse separation, typically less than 5 ns. The nanocrystals of the invention have a core/shell structure and may be surface treated to increase radiative decay. CdSe/Zns nanocrystals are particularly suitable.