Abstract: Disclosed are human relaxin-Fc fusion proteins having an increased serum half-life, polynucleotides encoding the same, and intermediates formed during the fusion protein biosynthesis. The fusion proteins may include a linker portion or other sections as well. Suitable fusion proteins are also those predicted to have the same effect as human relaxin in vivo, based, for example, on structural modeling. The fusion protein is useful in the treatment of a number of diseases and conditions, including heart disease, vascular disease, wound healing, fibrosis, fibromyalgia, and promoting angiogenesis.

Abstract: Disclosed are human relaxin-Fc fusion proteins having an increased serum half-life, polynucleotides encoding the same, and intermediates formed during the fusion protein biosynthesis. The fusion proteins may include a linker portion or other sections as well. Suitable fusion proteins are also those predicted to have the same effect as human relaxin in vivo, based, for example, on structural modeling. The fusion protein is useful in the treatment of a number of diseases and conditions, including heart disease, vascular disease, wound healing, fibrosis, fibromyalgia, and promoting angiogenesis.

Abstract: Disclosed are human relaxin-Fc fusion proteins having an increased serum half-life, polynucleotides encoding the same, and intermediates formed during the fusion protein biosynthesis. The fusion proteins may include a linker portion or other sections as well. Suitable fusion proteins are also those predicted to have the same effect as human relaxin in vivo, based, for example, on structural modeling. The fusion protein is useful in the treatment of a number of diseases and conditions, including heart disease, vascular disease, wound healing, fibrosis, fibromyalgia, and promoting angiogenesis.

Abstract: Disclosed are human relaxin-Fc fusion proteins having an increased serum half-life, polynucleotides encoding the same, and intermediates formed during the fusion protein biosynthesis. The fusion proteins may include a linker portion or other sections as well. Suitable fusion proteins are also those predicted to have the same effect as human relaxin in vivo, based, for example, on structural modeling. The fusion protein is useful in the treatment of a number of diseases and conditions, including heart disease, vascular disease, wound healing, fibrosis, fibromyalgia, and promoting angiogenesis.