The invention provides compositions, methods, and kits for increasing transport of GDNF across the blood brain barrier while allowing its activity to remain substantially intact. The GDNF is transported across the blood brain barrier via one or more endogenous receptor-mediated transport systems.

Neurotrophin receptor binding conjugate compositions for delivering an active agent to nerve cells are provided. Conjugate compositions of the present disclosure according to certain embodiments include a one or more active agent compounds (e.g., a dye or small molecule therapeutic) covalently bonded to a protein, peptide or peptidomimetic that binds selectively to a neurotrophin receptor. In embodiments of the compositions, the average ratio of active agent compound to protein, peptide or peptidomimetic in the conjugates is 5 or less. Dual color imaging compositions are also described. Methods for delivering an active agent conjugate selectively into nerve cells (e.g., intraocular delivery) are provided. Also included are methods of making compositions having neurotrophin receptor binding conjugates

In some aspects, disclosed herein are methods and compositions for treatment of sclerosing cholangitis using fibroblasts or derivatives thereof. The disclosed compositions include fibroblasts, engineered fibroblasts, exosomes obtained from fibroblasts, and conditioned media derived from fibroblasts. Methods of the present disclosure include providing fibroblasts to a subject to treat sclerosing cholangitis in the subject. Fibroblasts of the disclosure include fibroblasts capable of reducing inflammation in a subject. In certain aspects, fibroblasts are cultured with activating agents prior to therapeutic administration.

The present technology provides methods and compositions for the treatment of inflammatory and/or tissue damage conditions. In particular, the use of Smad7 compositions delivered locally or systemically to a site of inflammation and/or tissue damage is described. Other specific embodiments concern treatment or prevention of side effects caused by radiation and/or chemotherapy, including but not limited to oral and gastric mucositis. Also provided are codon-optimized nucleic acids encoding for Smad7 fusion proteins.

The present technology provides methods and compositions for the treatment of inflammatory and/or tissue damage conditions. In particular, the use of Smad7 compositions delivered locally or systemically to a site of inflammation and/or tissue damage is described. Other specific embodiments concern treatment or prevention of side effects caused by radiation and/or chemotherapy, including but not limited to oral and gastric mucositis. Also provided are codon-optimized nucleic acids encoding for Smad7 fusion proteins.

Disclosed herein are polypeptides and fusion polypeptides that have anti-angiogenic activity that can be used to inhibit tumor growth and tumor metastasis. The polypeptide consists of 9 or less consecutive amino acid residues (e.g., 8, 7, 6, 5, or 4) comprising the active core amino acid sequence DWLP, or an amino acid substitution variant thereof. Specific amino acid substitutions are disclosed herein. In some embodiments, the peptide consists essentially of 4-6 mers identified as exhibiting the activity of prosaposin A. Also disclosed herein are therapeutic compositions comprising the polypeptides and fusion polypeptides, and their use in the treatment, prevention, and inhibition of angiogenesis-related diseases and disorders such as cancer and cancer metastasis.

Disclosed herein are polypeptides and fusion polypeptides that have anti-angiogenic activity that can be used to inhibit tumor growth and tumor metastasis. The polypeptide consists of 9 or less consecutive amino acid residues (e.g., 8, 7, 6, 5, or 4) comprising the active core amino acid sequence DWLP, or an amino acid substitution variant thereof. Specific amino acid substitutions are disclosed herein. In some embodiments, the peptide consists essentially of 4-6 mers identified as exhibiting the activity of prosaposin A. Also disclosed herein are therapeutic compositions comprising the polypeptides and fusion polypeptides, and their use in the treatment, prevention, and inhibition of angiogenesis-related diseases and disorders such as cancer and cancer metastasis.

The present invention provides a method for treating a human patient with a pathology by administering to the subject an effective amount of an agent selected from the group of: native full-length CCN3 proteins; analog CCN3 full-length proteins with native cysteine residues substituted by a replacement amino acid; CCNp native peptide fragments having from about 12 to about 20 amino acids; analog CCNp peptide fragments with native cysteine residues substituted with a replacement amino acid; and combinations thereof.

The present invention provides a method for treating a human patient with a pathology by administering to the subject an effective amount of an agent selected from the group of: native full-length CCN3 proteins; analog CCN3 full-length proteins with native cysteine residues substituted by a replacement amino acid; CCNp native peptide fragments having from about 12 to about 20 amino acids; analog CCNp peptide fragments with native cysteine residues substituted with a replacement amino acid; and combinations thereof.

This invention relates to extracellular protein-protein interactions and their possible therapeutic uses. More particularly, this invention describes the interaction between Draxin, particularly fragments binding to γ-Netrins comprising SEQ ID NO.:1, 2 or 3, and variants thereof, with γ-Netrins, and the use of this interaction to disrupt γ-Netrin/Netrin receptor interactions. The invention also relates to diagnostic and/or therapeutic uses of Draxin or fragments or variants thereof, as well as to an antibody against Draxin inhibiting binding of Draxin to γ-Netrins. Further, the invention relates to fragments of γ-Netrins, in particular Draxin-binding Netrin1-fragments comprising SEQ ID NO.: 51 and variants thereof, as well as to an antibody against γ-Netrins inhibiting binding of γ-Netrins to Netrin receptors.