The present invention relates to an RNA encoding a therapeutic protein, in particular a collagenase, growth factor, cytokine, receptor, chaperone or signal transduction inhibitor. In particular, the present invention relates to RNA suitable for treatment of wounds, specifically for promoting wound healing. The present invention concerns such RNA as well as pharmaceutical compositions and kits and combinations comprising the RNA. Furthermore, the present invention relates to the RNA, pharmaceutical compositions, kits as disclosed herein for use in the treatment of wounds, specifically for promoting wound healing.

The present invention relates to an RNA encoding a therapeutic protein, in particular a collagenase, growth factor, cytokine, receptor, chaperone or signal transduction inhibitor. In particular, the present invention relates to RNA suitable for treatment of wounds, specifically for promoting wound healing. The present invention concerns such RNA as well as pharmaceutical compositions and kits and combinations comprising the RNA. Furthermore, the present invention relates to the RNA, pharmaceutical compositions, kits as disclosed herein for use in the treatment of wounds, specifically for promoting wound healing.

The present disclosure provides a coacervate composition containing a protein drug, gelatin A, sodium alginate and an acid and a wound-healing agent including the same. The coacervate composition according to the present disclosure can be useful as a wound-healing material delivery system for effectively delivering a protein drug, particularly epidermal growth factor, to a wound site in the wound-healing field.

Disclosed herein are nerve xenografts and methods of using such for repairing and/or protecting a nerve tissue in a human patient. The subject matter disclosed herein generally relates to nerve xenografts derived from genetically engineered source animals, and use of such nerve xenografts for repairing and/protecting nerve tissue in a human patient, e.g., for reconstruction of large peripheral nerve gaps, treatment of spinal cord injuries and ailments, and other therapies.

Described herein are polypeptides comprising an IGF2 amino acid sequence and an amino acid sequence from a heterologous polypeptide useful for the treatment of soft-tissue and muscle diseases, disorders, and injuries. Mutations within the IGF2 amino acid sequence improved the stability of the molecule by reducing backbone cleavage. Also described herein are synergistic combinations of an Insulin-like Growth Factor 1 Receptor (IGF1R) agonist and a short chain fatty acid. Also described are methods of treating muscle and soft-tissue diseases comprising administering the polypeptides and/or synergistic compositions.

The present invention relates to combinations, pharmaceutical compositions and fusion molecules comprising an FGF21 (fibroblast growth factor 21) compound and a GLP-1R (glucagon-like peptide-1 receptor) agonist with optimized GLP-1R agonist/FGF21 compound activity ratio. It further relates to their use as medicaments, in particular for the treatment of obesity, being overweight, metabolic syndrome, diabetes mellitus, diabetic retinopathy, hyperglycemia, dyslipidemia, Non-Alcoholic SteatoHepatitis (NASH) and/or atherosclerosis.

The present invention relates to combinations, pharmaceutical compositions and fusion molecules comprising an FGF21 (fibroblast growth factor 21) compound and a GLP-1R (glucagon-like peptide-1 receptor) agonist with optimized GLP-1R agonist/FGF21 compound activity ratio. It further relates to their use as medicaments, in particular for the treatment of obesity, being overweight, metabolic syndrome, diabetes mellitus, diabetic retinopathy, hyperglycemia, dyslipidemia, Non-Alcoholic SteatoHepatitis (NASH) and/or atherosclerosis.

A recombinant lentiviral vector includes a gene encoding a hepatocyte growth factor (HGF) protein. And a cell that is transfected with the lentivirus produced by using the vector is provided. The recombinant lentivirus includes a gene encoding a HGF protein, and a host cell transfected with the lentivirus maintains a high cell proliferation rate. Thus, a mesenchymal stem cell expressing HGF by being transfected with the lentivirus may be usefully employed as a cell therapeutic agent.

The present invention provides a non-natural polypeptide for use in treatment and/or prevention of an ophthalmic disorder in a mammalian subject. Administration of the polypeptide is well tolerated by the mammal. The non-natural polypeptide is provided at high purity.

The present invention provides a non-natural polypeptide for use in treatment and/or prevention of an ophthalmic disorder in a mammalian subject. Administration of the polypeptide is well tolerated by the mammal. The non-natural polypeptide is provided at high purity.