A probe for imaging EGFR expressing cells includes an EGFR targeting moiety, a reporter moiety, and a hydrophilic linker that links the EGFR targeting moiety to the reporter moiety. The hydrophilic linker enhances solubility of the probe in an aqueous media as well as binding affinity of the probe to EGFR expressing cells.

A probe for imaging EGFR expressing cells includes an EGFR targeting moiety, a reporter moiety, and a hydrophilic linker that links the EGFR targeting moiety to the reporter moiety. The hydrophilic linker enhances solubility of the probe in an aqueous media as well as binding affinity of the probe to EGFR expressing cells.

The present invention provides fusion proteins comprising leptin and a second protein. The presence of the second protein provides increased biological activity and/or increased half-life in vivo. The present invention also provides human, canine and feline leptin molecules fused to peptides, antibodies or antibody fragments which enhances the abilities of the leptin molecules to transport through the blood-brain-barrier (BBB). The present invention also provides fusion proteins further comprising a peptide agonist that is capable of binding to and stimulate one, two or all three of the following receptors: GLP-1 receptor, Glucagon receptor, and GIP receptor. Also disclosed is a method of production such fusion proteins through recombinant technologies. The invention further discloses a pharmaceutical composition comprising one of the fusion proteins as an active intergradient as well as a method for using such a pharmaceutical composition to treat diseases in dogs, cats and humans.

The present invention provides fusion proteins comprising leptin and a second protein. The presence of the second protein provides increased biological activity and/or increased half-life in vivo. The present invention also provides human, canine and feline leptin molecules fused to peptides, antibodies or antibody fragments which enhances the abilities of the leptin molecules to transport through the blood-brain-barrier (BBB). The present invention also provides fusion proteins further comprising a peptide agonist that is capable of binding to and stimulate one, two or all three of the following receptors: GLP-1 receptor, Glucagon receptor, and GIP receptor. Also disclosed is a method of production such fusion proteins through recombinant technologies. The invention further discloses a pharmaceutical composition comprising one of the fusion proteins as an active intergradient as well as a method for using such a pharmaceutical composition to treat diseases in dogs, cats and humans.

The present specification discloses recombinant nucleic acid constructs encoding an immunogenic multiepitope polypeptide comprising two or more polypeptides, recombinant nucleic acid constructs encoding at least two epitopes from two or more internal proteins of influenza virus, compositions comprising such recombinant nucleic acid constructs and methods of eliciting a T cell immune response against an influenza virus in a vertebrate using such recombinant nucleic acid constructs and compositions.

The present specification discloses recombinant nucleic acid constructs encoding an immunogenic multiepitope polypeptide comprising two or more polypeptides, recombinant nucleic acid constructs encoding at least two epitopes from two or more internal proteins of influenza virus, compositions comprising such recombinant nucleic acid constructs and methods of eliciting a T cell immune response against an influenza virus in a vertebrate using such recombinant nucleic acid constructs and compositions.

The disclosure relates to compositions and methods of mitigating tissue damage and fibrosis in a patient by modulating latent transforming growth factor beta binding protein (LTBP4)-induced proteolysis of a TGFβ superfamily protein.

The disclosure relates to compositions and methods of mitigating tissue damage and fibrosis in a patient by modulating latent transforming growth factor beta binding protein (LTBP4)-induced proteolysis of a TGFβ superfamily protein.

The present invention relates to use of peptides as a therapeutic agent, wherein it has been confirmed that the peptides of the present invention significantly inhibit the activity of T cells and the differentiation of T helper 17 cells (Th17 cells), which are associated with autoimmune disease, and have remarkable effects of treating and improving arthritis in an animal model of arthritis. Therefore, the peptides may be used as an active ingredient in therapeutic agents for various autoimmune diseases such as bone disease, inflammatory disease or rheumatoid arthritis.

The invention relates to compounds capable of modulating the permeability of junctions between epithelial cells, and their use to facilitate delivery of substances such as therapeutic and diagnostic agents across epithelial surfaces. In particular the invention relates to the identification of key amino acids in the known permeation enhancer PIP250 and the provision of new permeation enhancing peptides with more transient activity, thus providing faster epithelial recovery