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: A phage-displayed library of llama single heavy domain antibodies (sdAbs) was enriched for species that selectively bind to and are internalized by human cerebromicrovascular endothelial cells (HCEC). From the enriched library, two sdAbs were selected, sequenced, subcloned, and expressed as fusion proteins with c-myc-His5 tags (His5 is SEQ ID NO:101). Similarly as phage-displayed sdAbs, these soluble tagged sdAbs were shown to selectively bind to HCEC and to transmigrate across in vitro human blood-brain barrier (BBB) model. In contrast to an unrelated llama sdAb, these sdAbs were also detected in the brain after i.v. injection into mice. These small (˜13 kDa) antibody fragments have essential characteristics of brain-specific delivery vectors and can be used to facilitate drug transport across the BBB.

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: A phage-displayed library of llama single heavy domain antibodies (sdAbs) was enriched for species that selectively bind to and are internalized by human cerebromicrovascular endothelial cells (HCEC). From the enriched library, two sdAbs were selected, sequenced, subcloned, and expressed as fusion proteins with c-myc-His5 tags (His5 is SEQ ID NO:101). Similarly as phage-displayed sdAbs, these soluble tagged sdAbs were shown to selectively bind to HCEC and to transmigrate across in vitro human blood-brain barrier (BBB) model. In contrast to an unrelated llama sdAb, these sdAbs were also detected in the brain after i.v. injection into mice. These small (˜13 kDa) antibody fragments have essential characteristics of brain-specific delivery vectors and can be used to facilitate drug transport across the BBB.

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: 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: A phage-displayed library of llama single heavy domain antibodies (sdAbs) was enriched for species that selectively bind to and are internalized by human cerebromicrovascular endothelial cells (HCEC). From the enriched library, two sdAbs were selected, sequenced, subcloned, and expressed as fusion proteins with c-myc-His5 tags. Similarly as phage-displayed sdAbs, these soluble tagged sdAbs were shown to selectively bind to HCEC and to transmigrate across in vitro human blood-brain barrier (BBB) model. In contrast to an unrelated llama sdAb, these sdAbs were also detected in the brain after i.v. injection into mice. These small (˜13 kDa) antibody fragments have essential characteristics of brain-specific delivery vectors and can be used to facilitate drug transport across the BBB.

Abstract: A phage-displayed library of llama single heavy domain antibodies (sdAbs) was enriched for species that selectively bind to and are internalized by human cerebromicrovascular endothelial cells (HCEC). From the enriched library, two sdAbs were selected, sequenced, subcloned, and expressed as fusion proteins with c-myc-His5 tags. Similarly as phage-displayed sdAbs, these soluble tagged sdAbs were shown to selectively bind to HCEC and to transmigrate across in vitro human blood-brain barrier (BBB) model. In contrast to an unrelated llama sdAb, these sdAbs were also detected in the brain after i.v. injection into mice. These small (˜13 kDa) antibody fragments have essential characteristics of brain-specific delivery vectors and can be used to facilitate drug transport across the BBB.

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: A phage-displayed library of llama single heavy domain antibodies (sdAbs) was enriched for species that selectively bind to and are internalized by human cerebromicrovascular endothelial cells (HCEC). From the enriched library, two sdAbs were selected, sequenced, subcloned, and expressed as fusion proteins with c-myc-His5 tags. Similarly as phage-displayed sdAbs, these soluble tagged sdAbs were shown to selectively bind to HCEC and to transmigrate across in vitro human blood-brain barrier (BBB) model. In contrast to an unrelated llama sdAb, these sdAbs were also detected in the brain after i.v. injection into mice. These small (˜13 kDa) antibody fragments have essential characteristics of brain-specific delivery vectors and can be used to facilitate drug transport across the BBB.

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 phase-displayed library if llama single heavy domain antibodies (sdAbs) was enriched for species that selectively bind to and are internalized by human cerebromicrovascular endothelial cells (HCEC). From the enriched library, two sdAbs were selected, sequenced, subcloned, and expressed as fusion proteins with c-myc-His5 tags. Similarly as phage-displayed sdAbs, these soluble tagged sdAbs were shown to selectively bind to HCEC and to transmigrate across in vitro human blood-brain barrier (BBB) model. In contrast to an unrelated llama sdAb, these sdAbs were also detected in the brain after i.v. injection into mice. These small (˜13 kDa) antibody fragments have essential characteristics of brain-specific delivery vectors and can be used to facilitate drug transport across the BBB.